








LIBRARY OF CONGRESS. 

b' S8> 

_Oaptjrtr^t !ff n. _ 

ShelfJ-2L.VX 

UNITED STATES OF AMERICA. 



























































CHEMICAL 



FOR USE IN THE ANALYSIS OF 


COMMERCIAL FERTILIZERS. 


« 



x 


BY 


F. B. DANCY, A. B., and H. B. BATTLE, B. S., 

Chemists in the North Carolina Agricultural Experiment Station. 



RALEIGH : 

PUBLISHED BY THE AUTHORS. 

1885. 








COPYRIGHT, 

1885, 

% 

BY H. B. BATTLE and F. B. DANCY. 


Presses of 

Edwards, Broughton & Co., 
Raleigh, N. C. 



PREFACE. 


The following tables are intended to meet a long felt 
want on the part of Agricultural Analytical Chemists for 
some relief from the laborious and time-consuming calcula¬ 
tions necessary to convert the result of each separate deter¬ 
mination into the customary per cent. They embrace only 
what is required in the analysis of commercial fertilizers 
and their derivative constituents, and hence are principally 
for the benefit of agricultural chemists. For this purpose 
the otherwise admirable tables of Frerichs & Kohlmann 
are inadequate, since they do not convert to per cents, the 
weights there given do not extend to fractions of a milli¬ 
gramme, nor do they contain the Ca 3 P 2 0 8 conversion table. 
This volume, then, conflicts in no way with theirs, but 
furnishes a need not attempted to be supplied by them. 

l'he tables are based on the latest atomic weights as given 
by Clarke, (“The Constants of Nature,” Part V, 1882), with 
the exception of the Potash Table, the reason for this 
departure being given under its appropriate head. 

F. B. Dancy, 

H. B. Battle. 

Laboratory of the 
N. C. Agricultural Exp't Station, 

Raleigh, May ist, 1885. 








CHEMICAL 


Conversion Tables. 


TABLE I. 

PHOSPHORIC ACID CONVERSION TABLE. 

In the following table for the conversion of Magnesium 
Pyrophosphate (Mg o F o 0 7 ) into Phosphoric Acid (P a O s ) and 
Tricalcium Phosphate (Ca 3 P 8 0 8 ), the figures are based on 
the supposition that one-half (5) grin, of the substance orig¬ 
inally weighed out is precipitated and weighed as Mg,P 2 0 . 
in the determination of the P 8 O g present. This weight (A 
grm.) is taken because practically it is found more conve¬ 
nient than any other, because the Convention of Agricultural 
Chemists adopted it in their official methods at Atlanta, 
May, 1884, and because a majority of the chemists through¬ 
out the country use it. 

The factor employed for the conversion of Mg 2 P 2 0 7 to 
P 8 O s is .63965. In the calculation of the Ca 3 P 2 0 8 it is 
thought advisable to convert direct from the Mg 2 P 2 0 7 , as 
being more accurate than obtaining it through the medium 
of the P 2 O s ; this factor is 1.3972. 

In the table the numbers are carried to the second decimal, 
which is always sufficient for a commercial analysis. The 
rule in this table (as well as in all the others in this book) 
for throwing aside decimals is invariable, that of raising 
the second decimal to the next higher figure when the suc¬ 
ceeding decimals amount to .005 or more; when these 
decimals do not amount to .005 the second decimal is un¬ 
changed. E. g., 21.06532 is changed to 21.07; an ^ 16.32245 
is allowed to remain 16.32. The reason is obvious, as the 
changed figures will more nearly represent the truth than 
any others. 



6 


Chemical Conversion Takl.es. 


The table can be used for i grin, as well as i gnn., in 
which case the weight of Mg 2 P 2 0 7 is divided by two, the 
resulting number is found in the table and the per cent, 
sought for will be found opposite. Likewise when ^ grm. 
is used the weight of Mg 2 P 3 0 7 is doubled before using the 
table. In the analysis of very high grade phosphates where 
the content of P 2 0 5 is likely to exceed 30 per cent., it is 
advisable to use this latter weight, as the precipitate then 
can be more easily treated and accuracy better attained. 


Phosphoric Acid Table. 


7 


Gramme .0000 — .0199. 


Grm. 

% 

^ ■ 

Grm. 

% 

.% 

\ (jrm. 

c/ 

/o 

% 

Grm. 

% 

% 

o 


O 

q 


6 

C 


O 

<q 


6 


’ 0 

Cl, 

c~ 

0 


I 

in 


Ph 

in 



q 

1 & 

£ 

C 

A' 

tfj 

q 


tL 

<q 



cu 

U 


Cl 



CU 

O 


cu 

u 

.0000 

.00 

.OO 

.0050 

.64 

1.40 

.0100 

1.28 

. 2 79 

.0150 

1.92 

4.19 

.0001 

.01 

• 03 

.0051 

.65 

1.42 

Olol 

1.29 

2.82 

.0151 

‘•93 

4.22 

.0002 

•03 

.06 

.0052 

.67 

i -45 

.0102 

1.30 

2.85 

.0152 

1.94 

4-25 

.0003 

.04 

.08 

•0053 

,6S 

1.4S 

•0103 

1.32 

2.88 

.0153 

1.96 

4.27 

.0004 

.05 

. 11 

.0054 

.69 

i- 5 i 

0104 

133 

2.91 

•0154 

1.97 

4 - 3 o 

.0005 

.0() 

.14 

•0055 

.70 

i -54 

.0105 

i -34 

2.93 

1 -0155 

1.98 

4-33 

.0006 

.08 

• 17 

.0056 

•72 

1 50 

.0106 

1.36 

2.96 

.0156 

2.00 

4-36 

.0007 

.09 

.20 

.0057 

• 73 

i -59 

.0107 

i -37 

2.99 

.0157 

2.01 

4 39 

.0008 

. 10 

.22 

.0058 

• 74 

1.62 

.0108 

1.38 

3 02 

.0158 

2.02 

441 

.0009 

. 12 

• 25 

.0059 

•75 

1.65 

.0109 

i -39 

3-05 

.0159 

2 03 

4-44 

.0010 

• 13 

.28 

.0060 

•77 

1,6S 

.0110 

1 41 

3-07 

.0160 

2.05 

4 47 

.0011 

.14 

• 31 

.0061 

.78 

1.70 

0111 

1.42 

3 - 10 

.0161 

2 06 

4-50 

.0012 

• 15 

• 34 

.0062 

•79 

i -73 

.0112 

i -43 

3 13 

.0162 

2.07 

4-53 

.0013 

• 17 

• 36 

.0063 

.81 

1.76 

■0113 

‘•45 

3 H> 

.0163 

2 09 

4-55 

.0014 

.18 

•39 

.0064 

.82 

1.79 

.0114 

1.46 

3 19 

.0164 

2.10 

4 58 

.0015 

.19 

• 42 

.0065 

•83 

1.82 

.0115 

i -47 

321 

.0165 

2.11 

4 - 6 i 

.0016 

.20 

■45 

.0066 

• 84 

1.84 

0116 

1.48 

3 24 

.0166 

2.12 

4.64 

.0017 

.22 

•47 

.0067 

.fc6 

1.87 

.0117 

1.50 

3 27 

.0167 

2.14 

4.67 

.0018 

• 23 

• 50 

.006S 

• 87 

1.90 

.0118 

i- 5 ‘ 

3 30 

.016S 

2.15 

4.69 

.0019 

.24 

• 53 

.0069 

.88 

1.93 

.0119 

152 

3 32 

.0169 

2.16 

4 72 

.0020 

.26 

• 56 

.0070 

.90 

1.96 

.0120 

1 - 54 

3-35 

.0170 

2 17 

4-75 

.0021 

■ 27 

•59 

.0071 

.91 

1.9S 

.0121 

i -55 

3 - 3 « 

0171 

2 19 

4 78 

.0022 

.28 

.61 

.0072 

.92 

2.01 

.0122 

1.56 

3 - 4 i 

.0172 

2.20 

4.81 

.0023 

.29 

.64 

.0073 

•93 

2.04 

.0123 

‘•57 

3-44 

.0173 

2.21 

4.83 

.0024 

• 31 

.67 

.0074 

•95 

2.07 

.0124 

‘•59 

3-46 

.0174 

2.23 

4.86 

.0025 

•32 

.70 

.0075 

.96 

2.10 

.0125 

1.60 

3-49 

■0175 

2.24 

4.89 

• OC26 

•33 

• 73 

.0076 

■97 

2.12 

.0126 

1.61 

3-52 

.0176 

2.2=; 

4.92 

.0027 

•35 

• 75 

.0077 

•99 

2.15 

.0127 

1.62 

3-55 

.0177 

2.26 

4 95 

.0028 

.36 

•73 

.0078 

1.00 

2.1S 

.0128 

1.64 

3-58 

.0178 

2.28 

4-97 

.OO29 

.37 

.81 

.0079 

1.01 

2.21 

.0129 

1.65 

3-6o 

.0179 

2 29 

5.00 

.0030 

• 3 S 

.84 

.0080 

1.02 

2.24 

.0130 

1.66 

3-63 

.01S0 

2.30 

5-03 

.OO31 

.40 

.87 

.0081 

1.04 

2.26 

.0131 

1.68 

3-66 

.0181 

2.32 

5.06 

.OO32 

.41 

.89 

,0082 

105 

2.29 

.0132 

1.69 

3-69 

.0182 

2-33 

5 09 

•OO33 

.42 

.92 

.O0S3 

1.06 

2.32 

•0133 

1.70 

3-72 

.01S3 

2-34 

5 -ii 

.OO34 

•43 

•95 

.0084 

1.07 

2-35 

.0134 

1.71 

3-74 

.0184 

2-35 

5-14 

•0035 

•45 

• 9 s 

.00S5 

1.09 

2.37 

•0135 

i -73 

3-77 

.0185 

2-37 

5- 1 7 

.0036 

.46 

1.01 

.00S6 

1.10 

2.40 

.0136 

1.74 

3.80 

.0186 

2.38 

5-20 

.0037 

•47 

1.03 

.0087 

1.11 

2.43 

•0137 

i -75 

3 S3 

.0187 

2-39 

5-22 

.003S 

•49 

r.06 

.00S8 

I - I 3 

2.46 

.0138 

i ,77 

3-86 

.0188 

2.41 

5-25 

.0039 

•50 

1.09 

.00S9 

1.14 

2-49 

.0139 

1.78 

3-88 

.0189 

2.42 

5-28 

.0040 

•51 

1.12 

.0090 

IT 5 

2.51 

.0140 

1.79 

3 - 9 ‘ 

.0190 

2-43 

5 3 i 

.0041 

•52 

1.15 

.0091 

1.16 

2-54 

.0141 

1.80 

3 94 

.0191 

2 44 

5-34 

.0042 

•54 

1.17 

.0092 

1.18 

2-57 

.0142 

1.82 

3 97 

.0192 

2.46 

5-36 

.0043 

•55 

1.20 

.0093 

1.19 

2.60 

•0143 

1.S3 

4 00 

•0193 

2-47 

5-39 

.0044 

• 56 

1.23 

.0094 

1.20 

2.63 

.0144 

1.S4 

4.02 

.0194, 

2.48 

5 42 

.0045 

•58 

1.26 

.0095 

1 22 

2.65 

.°M 5 

1 85 

4-05 

.oiqd 

2.49 

5-45 

.0046 

•59 

1.29 

.0096 

1.23 

2.68 

014(1 

1.87 

4.08 

.0196 

2.51 

5-48 

.0047 

.60 

131 

.0097 

1.24 

2.71 

.0147 

1.88 

4.n 

.0197 

2.52 

5-50 

.0048 

.61 

i -34 

.0098 

1.25 

2.74 

.014s 

1.89 

4.14 

.0198 

2-53 

5 53 

.0049 

.63 

‘•37 

.0099 

1.271 

2-77 

.0149 

1.91' 

4 16 

.0199 

2-55 

5-56 










































8 


Phosphoric Acid Table. 


Gramme .0200—.0399. 


Grm. 

% 

% 

G rm. 


% 

G rm. 

* 

% 

Grm. 

% 

% 

o 


6 

O 


6 

6 


oo 

O 

O 


6 

P- 

tf) 

s 

‘ i 

O 

pT 

c 

U 

tx 

S 

: 0 

pT 

e-“ 

a 

V 

p. 

£ 

O 

! 

pT 

cl 

; u 

CC 

tf) 

2 

6 

p? 

pT 

CJ 

u 

.0200 

2.56 

5-59 

.0250 

3.2c 

6.99 

.0300 

3-84 

' 8.38 

•0350 

4 48 

9.78 

.0201 

2.57 

5.62 

.0251 

3-21 

7.01 

.0301 

3-85 

8.41 

•0351 

4-49 

9.81 

.0202 

2.5S 

5-64 

.0252 

3.22 

7.04 

.0302 

3.86 

[8.44 

.0352 

4-50 

9-83 

.0203 

2.60 

5-^7 

0253 

3-24 

7.07 

■ °j °3 

3.88 

8.47 

•0353 

4-52 

9.86 

.0204 

2.6l 

5-70 

.0254 

3-25 

7.10 

.0304 

3 -Sg 

8.49 

•0354 

4-53 

9.89 

.0205 

2.62 

5-73 

•0255 

3.26 

7.12 

.0305 

3 - 9 ° 

8.52 

•0355 

4-54 

9.92 

.0206 

2.64 

5-76 

.0256 

3 2S 

7-15 

.0306 

3 - 9 1 

8.55 

•0356 

4-55 

9-95 

.0207 

2.65 

5-73 

•0257 

3 29 

7.18 

.0307 

3-93 

8.58 

•0357 

4-57 

9-97 

.0208 

2.66 

5.81 

.0258 

3 - 3 ° 

7.21 

.030S 

3-94 

8.61 

•0358 

4-58 

10.00 

.0209 

2.67 

5.84 

.0259 

3 • 3 1 

7.24 

.0309 

3 95 

8.63 

•0359 

4-59 

10.03 

.0210 

2.69 

5-87 

.0260 

3-33 

7.26 

.0310 

3-97 

8.66 

.0360 

4.61 

10.06 

.0211 

2.70 

5 - 9 ° 

.0261 

3-34 

7.29 

• 0311 

3 9 s3 

8.69 

.0361 

4 62 

10.09 

.0212 

2.71 

5.92 

.0262 

3-35 

7-32 

.0312 

3-99 

8.72 

.0362 

4-63 

10.11 

.0213 

2.72 

5-95 

.0263 

3 - 3 () 

7-35 

•0313 

4.00 

8-75 

•0363 

4.64 

10.14 

.0214 

2 74 

5-98 

.0264 

3-38 

7-38 

.0314 

4 02 

8-77 

.0364 

4 66 

10.17 

.0215 

2 75 

(> 01 

.0265 

3 39 

7.40 

• 0315 

4-03 

8.So 

•0365 

4.67 

10.20 

.0216 

2.70 

6.04 

.0266 

3 - 4 ° 

7-43 

.0316 

4.04 

8.83 

.0366 

4.68 

IO.23 

.0217 

2.7S 

6.06 

.0267 

3-42 

7.40 

• 0317 

4 06 

8.S6 

.0367 

4.70 

IO.25 

.0218 

2.79 

6.09 

.026s 

3 43 

7-49 

.0318 

4.07 

8.8S 

.036s 

4 - 7 i 

10.28 

.0219 

2.80 

6.12 

.0269 

3-44 

7-52 

.0319 

4.08 

S.91 

.0369 

4.72 

IO.3I 

.0220 

2.Si 

615 

.0270 

3-45 

7-54 

.0320 

4.09 

8-94 

.0370 

4-73 

10.34 

.0221 

2.83 

6.17 j 

.0271 

3-47 

7-57 

.0321 

4.11 

8.97 

•0371 

4-75 

10.37 

.0222 

2.S4 

6.20 

.0272 

3-48 

7.60 

.0322 

4.12 

9 00 

.0372 

4.76 

IO.39 

.0223 

2.85 

6 23 

.0273 

3-49 

7.63 

• 0323 

4 i 3 

9.02 

•0373 

4-77 

IO.42 

.0224 

2.87 

6.26 

.0274 

3 5 i 

7.66 

.0324 

4.14 

9-°5 

0374 

4.78 

IO.45 

.0225 

2.SS 

6.29 

•0275 

3-52 

7.68 

.0325 

4.16 

9.08 

•0375 

4.80 

IO.48 

.0226 

2.S9 

631 

.0276 

3-53 

7 . 7 i 

.0326 

4.17 

9.11 

.0376 

4.81 

IO.5I 

.0227 

2 .QO 

6-34 

.0277 

3 54 

7-74 

.0327 

4.18 

9.14 

•0377 

4.S2 

10.53 

.0228 

2.92 

6-37 

.027s 

3 - 5 & 

7-77 

.0328 

4 20 

9.16 

.0378 

4.84 

IO.56 

.0229 

2-93 

6.40 

.0279 

3 57 

7. So 

.0329 

4.21 

9.19 

•0379 

4-85 

IO.59 

.0230 

2.94 

6-43 

.0280 

3-58 

7 82 

.0330 

4.22 

9.22 

.03S0 

4.86 

10.62 

.0231 

2.96 

6.45 

.02S1 

3-59 

7-S5 

.0331 

4-23 

9 25 

.0381 

4.87 

IO.65 

.0232 

2 97 

6.4S 

.02S2 

3.61 

7 88 

.0332 

4-25 

9.2S 

.0382 

4.89 

IO.67 

.0233 

2.9S 

6.51 

.0283 

3.62 

7.91 

•0333 

4.26 

9-30 

.03831 

4 90 

IO.7O 

■°-34 

2.99 

6-54 

.02S4 

3.63 

7^93 

•0334 

4.27 

9-33 

.0384 

4.91 

10.73 

•0235 

3 01 

6.57 

.02S5 

3-65 

7.96 

0335 

4.29 

9.36 

.0385 

4-93 

IO.76 

0236 

3 02 

6-59 

.02S6 

3.66 

7-99 

•0336; 

4-301 

9-39 

.0386 

4-94 

IO.78 

.0237 

303 

6 62 

.02S7 

3-^7 

S.02 

•0337 

4 . 31 ; 

9.42 

•03S7 

4-95 

IO.Sl 

.0238 

3-04 

6.65 

02S8 

3.68 

8.05 

•0338 

4-32 

9-44 

.03SS 

4.96 

IO.84 

.0239 

3.06 

6.68 

.02S9 

3-70 

8.07 

•0339 1 

4 - 34 ' 

9 47 

.0389 

4.98 

IO.87 

.0240 

3- u 7 

6 71 

.0290 

3 7 i 

8. 10 

.0340 

4-35 

9.50 

.0390 

4.99 

IO.gO 

.0241 

3 -oS 

6-73 

.0291 

3-72 

S.13 

• 0341 

4 - 3 &J 

9-53 

.0391 

5.00 

IO.92 

.0242 

3.10 

6.76 

0292 

3-74 

8.16 

.0342 

4-38 

9 56 

.0392 

5-01 

IO.95 

.0243 

3 -11 

6-79 

.0293 

3 75 

8.19 

•0343 

4-39 

9 5 S 

•0393 

5-03 

IO.98 

.0244 

3-I2j 

6.82 

.02941 

3 76 

8.21 

• 0344 

4.40 

9.61 

.0394 

5-04 

II.OI 

.0245 

3 L 3 

6.85 

02qs 

3-77 

S.24 

•0345 

4 - 4 H 

9.64 

■0395 

5 05 

II.04 

.0246 

3 15 

6.87 

.0296 

3-79 

S.27 

.0346 

4-43 

9.67 

.0396 

5.07 

11.06 

.0247 

3 -16 

6.90 

.0297 

3 -8 o 

S.30 

•0347 

4-44 

9.70 

•0397 

5.08 

I I.Og 

.024S 

3-17 

6.93 

.029S 

3 81 

8-33 

.0348 

4-45 

9.72 

.0398 

5 -og 

II .12 

.')240 

3 -10! 

6 96 

.02qg| 

3.8-1 

S.35 

•0349 

4 46 ! 

9-75 

•0399 

5 -io 

II .15 













































Phosphoric Acid Table. 


9 


Gramme .0400—.0599. 


Grr.i 

• % 

% 

Grm 

% 

% 

Grm 

% 

% 

Grm 

% 

% 

O 


6 

O 


6 

O 


6 

O 


6 

PU 

tfj 

2 

O 

P-T 

cT 

03 

CJ 

Oh 

tn 

S 

O 

: C-* 

pT 

a 

O 

ti 

s 

0 

pT 

a 

CJ 

PH 

tf ) 

S 

O 

pT 

pT 

a 

U 

.040c 

5-12 

II.18 

.045c 

5-76 

12-57 

.050c 

6.40 

13-97 

.0550 

7.04 

15-37 

.0401 

5 -H 

11.20 

•0451 

5-77 

12.60 

■0501 

6.41 

14.00 

•0551 

7-05 

15-39 

.0402 

5.14 

II.23 

.0452 

5-73 

12.63 

.0502 

6.42 

14-03 

•0552 

7.06 

15.42 

.040; 

5 .i£ 

11.26 

0453 

5.80 

12 66 

•0503 

6.43 14.05 

[j -0553 

7.07 

15-45 

.040.1 

5-17 

II.29 

•0454 

5 - 8 i 

12.68 

■0504 

6.45 

14.08 

f -0554 

7.09 

15.48 

.0405 

5 -1 3 

11.32 

f -0455 

5.82 

12.71 

•0505 

6.46 

I 4 -H 

1-°555 

7.10 

i 5 - 5 i 

.040c 

519 

H -34 

il .0456 

5-83 

12.74 

.0506 

6.47 

14.14 

| -0556 

7.11 

15-53 

.0407 

5-21 

11 37 

•0457 

5-85 

12.77 

•0507 

6.49 

14.17 

-0557 

7-13 

I 5-56 

.040& 

5.22 

11.40 

.0458 

5-86 

12.80 

.0508 

6.50 

14.19 

•0558 

7.14 

15-59 

.0409 

5-23 

H -43 

•0459 

5-37 

12.82 

.0509 

6.51 

14.22 

•0559 

7 -i 5 

15.62 

.0410 

5-25 

11.46 

.0460 

5-S8 

12.85 

.0510 

6.52 

14-25 

.0560 

7.16 

15-65 

.0411 

5 26 

11.48 

.0461 

5 - 9 ° 

12.88 

.0511 

6-54 

14.28 

.0561 

7 IS 

15-67 

.0412 

5-27 

11.51 

.0462 

5 - 9 i 

12.91 

.0512 

6-55 

I 4 - 3 I 

.0562 

7.19 

15-70 

.0413 

5.2S 

U -54 

.0463 

5 - 9 2 

12.94 

•0513 

6.56 

14-33 

.0563 

7.20 

15-73 

.0414 

5-30 

11.57 

.0464 

5-94 

12.96 

•0514 

6.58 

14.36 

•056-1 

7.22 

15-76 

•0415 

5 - 3 i 

11.60 

.0465 

5-95 

12 99 

•0515 

6-59 

14-39 

.0565 

7-23 

15-79 

.0416 

5-32 

11.62 

.0466 

5-96 

13.02 

.0516 

6.60 

14.42 

.0566 

7.24 

15-81 

.0417 

5-33 

11.65 

.0467 

5-97 

13-05 

•0517 

6.61 

14.44 

.0567 

7-25 

15.S4 

.0418 

5-35 

11.68 

.0468 

5-99 

13.oS 

.0518 

6.63 

14-47 

.0568 

7 27 

15-87 

.0419 

5-36 

11.71 

.0469 

6.00 

13.10 

•0519 

6.64 

14.50 

.0569 

7.28 

15.90 

.0420 

5-37 

H -73 

.0470 

6.01 

13-13 

.0520 

6.65 

14-53 

.0570 

7.29 

15-93 

.0421 

5-39 

11.76 

.0471 

6.03 

13.16 

.0521 

6.67 

14.56 

•0571 

7 - 3 ° 

15-95 

.0422 

5-40 

11.79 

.0472 

6.04 

13-19 

.0522 

6.68 

I 4-58 

•0572 

7-32 

15.98 

.0423 

> 4 i 

11.82 

•0473 

6.05 

13.22 

•0523 

6 69 

14.61 

•0573 

7-33 

16.01 

.0424 

5-42 

11.85 

.0474 

6.06 

13-24 

.0524 

6.70 

14.64 

•0574 

7-34 

16.04 

.0425 

5-44 

11.87 

•0475 

6.08 

1327 

•0525 

6.72 

14.67 

•0575 

7-36 

16.07 

.0426 

5-45 

11.90 

.0476 

6.09 

13 - 3 ° 

.0526 

6-73 

14.70 

.0576 

7-37 

16.09 

.0427 

5 46 

U -93 

•0477 

6.10 

13-33 

.0527 

6.74 

14-72 

•0577 

7 - 3 S 

16.12 

.0428 

5-43 

11.96 

• 047 ^ 

6.12 

I 3-36 

.052S 

6-75 

14-75 

•0578! 

7-39 

16.15 

.0429 

5-49 

11.99 

.0479 

6.13 

I 3-33 

.0529 

6.77 

14.78 

•0579 

7 - 4 i 

16.18 

.0430 

5-50 

12.01 

.04S0 

6.14 

I 3 - 4 I 

■0530 

6.78 

14.81 

.05S0 

7.42 

16.21 

.0431 

5 - 5 i 

12.04 

.0481 

6.15 

13-44 

•0531 

6.79 

14.84 

.0581 

7-43 

16.23 

.0432 

5 53 

12.07 

.0482 

6 17 

13-47 

•0532 

6.81 

14.86 

.05S2 

7-45 

16.26 

•0433 

5-54 

12.10 

• 04S3 

6.18 

13 - 5 ° 

•0533 

6.82 

14.89 

.0583 

7.46 

16.29 

•0434 

5-55 

12.13 

.04S4 

6.19 

13-52 

•0534 

6.S3 

14-92 

.0584 

7-47 

16.32 

■0435 

5-56 

12.15 

.° 4 S 5 

6.20 

13-55 

•0535 

6.84 

14-95 

•05S5 

7.48 

16.34 

.0436 

5.53 

12.18 

.0486 

6.22 

13-58 

•0536 

6.86 

14.98 

.0586 

7-50 

16.37 

•°437 

5-59 

12.21 

.0487 

6.23 

13.61 

•0537 

6.87 

15.00 

.0587 

7 - 5 i 

16.40 

.0438 

5-6o 

12.24 

.0488 

6.24 

13-63 

•0538 

6 SS 

15-03 

.0588 

7-52 

16.43 

•0439 

5.62 

12.27 

.0489 

6.26 

13-66 

■0539 

6.90 

15.06 

.0589 

7-54 

16.46 

.0440 

5-63 

12.29 

.0490 

6.27 

13.69 

.0540 

6.91 

15.09 

.0590 

7-55 

16.48 

.0441 

5-64 

12.32 

.0491 

6.28 

13-72 

•0541 

6.92 

15.12 

.0591 

7-56 

16.51 

.0442 

5-65 

' 2-35 

.0492 

6.29 

13-75 

.0542 

6-93 

15-14 

•0592 

7-57 

16.54 

•0443 

5-67 

12.38 

•0493 

6.31 

13-77 

•0543 

6-95 

15-17 

•0593 

7-59 

16-57 

.0444 

5-68 

12.41 

.0494 

6.32 

13-So 

•0544 

6.96 

15-20 

.0594 

7.60 

16.60 

• 0445 

5-69 

12.43 

•0495 

6.33 

r 3 -S 3 

•0545 

6.97 

15-23 

•0595 

761 

16.62 

.0446 

5 . 7 i 

12.46 

.0496 

6.35 

13-86 

.0546 

6.98 

15.26 

.0596 

7.62 

16.65 

.0447 

5-72 

12.49 

.0497 

6.36 

3-39 

■0547 

7.00 

15-28 

•0597 

7.64 

16.68 

.0443 

5-73 

12.52 

.049S 

6.37 

3-91 

.0548 

7.01 

I 5 - 3 I 

.0598 

7.65 

16.71 

,°449 

5-74 

12-55 

.0499 

6.38 

3-94 

.0549 

7.02 

[ 5-34 

•0599I 

7.66 

16.74 


o 











































































IO 


Phosphoric Acid Tablk. 


Gramme .0600—.0799. 


Grm. 

O 

c-T 

bjj 

§ 

% 

O 

p-T 

% 

O 

&T 

a 

<J 

Grm. 

O 

p!’ 

tS 

2 

* 

O 

pT 

% 

O 

pT 

rt 

u 

Grm. 

O 

pT 

tx 

2 

% 

C 

c-T 

% 

O 

pT 

K 

cs 

0 

Grm. 

O 

pT 

t£ 

2 

% 

O 

pT 

% 

O 

pT 

$ 

.0600 

7.68 

16. 76 

.0650 

8.32 

1S. 16 

.0700 

8.96 

19.56 

.0750 

9 59 

20.96 

.0601 

7.69 

16.79 

.0651 

8.33 

18. .9 

.0701 

8 -97 

19 59 

• 0751 

9.61 

20.gS 

.0602 

7.70 

16.82 

.0652 

8 34 

1S.22 

.0702 

8 98 

19.61 

• 0752 

9.62 

21.01 

.0603 

7.71 

16.85 

•0653 

3 35 

18.24 

.0703 

8 99 

19 64 

• 0753 

9-63 

21.04 

.0604 

7-73 

16.88 

.0654 

3-37 

1S.27 

.0704 

9 01 

19.67 

.0754 

9.65 

21.07 

.0605 

7-74 

16.90 

•0655 

8.38 

18.30 

.0705 

9 02 

19.70 

•0755 

9.66 

21 09 

.0606 

7-75 

16.93 

.0656 

8-39 

18 33 

.0706 

9 °3 

19-73 

■0756 

9.67 

21.12 

.(-607 

7-77 

16.96 

.0657 

8.41 

18 36 

.0707 

9.04 

19-75 

■0757 

9.68 

21.15 

.o6f 8 

7.78 

16.99 

.0658 

8 42 

18.38 

.0708 

9.06 

19.78 

■075S 

9 70 

21. IS 

.0609 

7-79 

17.02 

.0659 

8-43 

18.41 

.0709 

9.07 

19.81 

•0759 

9.71 

21.21 

.0610 

7.80 

17.04 

.0660 

8.44 

1S.44 

0710 

9 oS 

1984 

.0760 

9.72 

21.23 

.0611 

7.82 

17.07 

.0661 

8.4b 

18-47 

.0711 

9.10 

19.87 

.0761 

9 74 

21.26 

.0612 

7-83 

17.IO 

.0662 

8.47 

18.50 

.0712 

9.11 

19-89 

.0762 

9-75 

21.29 

.0613 

7.84 

17.13 

.0663 

8.48 

18.52 

■0713 

9 12 

19 92 

0763 

9 76 

21.32 

.0614 

7.85 

17.16 

.0664 

8.49 

18.55 

.0714 

9 13 

19 95 

.0764 

9-77 

21-35 

.0615 

7.87 

17.18 

.0665 

8.51 

18.58 

.0715 

9.15 

19.98 

.0765 

9-79 

21.37 

.06)6 

7.88 

17.21 

.0666 

S.52 

18.61 

.0716 

9.16 

20 01 

.0766 

9 80 

21.40 

.0617 

7.89 

17.24 

.0667 

S -53 

18.64 

.0717 

9 - 7 

20 03 

.0767 

9 81 

21 43 

.0618 

7 - 9 1 

17.27 

.0668 

8-55 

18.66 

.0718 

9 19 

20.06 

076S 

9.83 

21.46 

.0619 

7.92 

17.29 

.0669 

8.56 

18.69 

.0719 

9.20 

20 09 

.0769 

9.S4 

21.49 

.0620 

7-93 

17 32 

.0670 

8-57 

18.72 

.0720 

9 21 

20.12 

.0770 

9 - 85 

21.51 

.0621 

7 94 

17 35 

.0671 

8.5S 

1 8 75 

0721 

9 22 

20. 14 

.0771 

9 86 

21 54 

.0622 

7.9b 

l 7 

M672 

S.6u 

18.78 

.0722 

9.24 

20 17 

.0772 

9.8S 

21-57 

.0623 

7-97 

17 41 

0673 

8.61 

1S. So 

.0723 

9 2 5 

20 20 

■0713 

9.S9 

21.60 

.0624 

7.9S 

17-43 

.0674 

8 62 

iS S3 

.0724 

9 26 

20.23 

•0774 

9 90 

21 63 

.0625 

8 00 

17.46 

0675 

8 64 

18.S6 

0725 

9 27 

2< . 26 

• 0775 

9 - 9 1 

21.6*; 

.0626 

8.01 

17 49 

.0676 

8.65 

1 S. 89 

.0726 

9.29 

20.2S 

■0776 

9 93 

21.68 

.0627 

8 02 

17.52 

0677 

8. (.6 

18.92 

.0727 

9 30 

20.31 

■ 0777 

9 94 

21.71 

.0628 

8 03 

17-55 

.0678 

8.67 

18.94 

.0728 

9-31 

20 34 

.0778 

9 95 

21.74 

.0629 

8.05 

17-57 

.0679 

S.69 iS 97 

.0729 

9 33 

20.37 

.0779 

9-97 

21.77 

.0630 

8.06 

1 7 60 

.0680 

S.70 

19 00 

.0730 

9 34 

20 40 

.07S0 

9.98 

21.79 

.0631 

8.07 

17 63 

06S1 

8. 71 

19 03 

0731 

9-35 

20.42 

.0781 

9.99 

2182 

.0632 

8° y 

17 66 

0682 

8.72 

19.06 

0732 

9 36 

20.45 

.07S2 

10. to 

2i.S5 

0633 

8.10 

17.69 

.0683 

3-74 

19 08 

0733 

9 38 

2O.4S 

.0783 

10.02 

21.88 

.0634 

S 11 

17.71 

.0684 

8-75 

19 II 

0734 

9 39 

20 51 

.0784 

10 03 

21 90 

.0635 

8.12 

1 . 7-74 

.0685 

8.76 

19 14 

■0735 

9 40 

20 54 

.0785 

10.04 

21.93 

.0636 

8 14 

17 77 

.06S6 

8 78 

19 17 

0736 

9 42 

20.56 

.0786 

10.06 

21.96 

,0637 

8.15 

17.80 | 

.0687 

S.79 

19.19 

0737 

9-43 

20 59 

.07S7 

10.07 

21.99 

.0638 

8.16 

17 .S3 

.0688 

8 80 

19 22 

0738 

9-44 

20.62 

.0788 

10 08 22 02 

0639 

8.17 

17-85 

.1 6S9 

S.81 

I 9. 2 5 

•6739 

9-45 

20 65 

.0789 

10.09 22.04 

.0640 

8.19 

17.88 

.0690 

8.83 

I9.2S 

.0740 

9-47 

20.6S 

.0790 

10 11 

22.07 

.0641 

8.20 

17 91 

.0691 

S S4 

1931 

.0741 

9.48 

20.70 

.0791 

10 12 

22 . IO 

.0642 

8.21 

1794 

.0692 

8.85 

19 33 

.0742 

9-49 

20 73 

0792 

10.13 

22.13 

.0643 

8.23 

17 97 

0693 

8 S7 

19 36 

■0743 

9 - 5 i 

20 76 

• 0793 

10.14 

22 l6 

.0644 

824 

17.99 

.0694 

8.S8 

19 39 

.074-1 

9-52 

20.79 

.0794 

10 16 

22. l8 

.0645 

8.25 

18.02 

.0695 

S.S9 

19.42 

•0795 

9 53 

20.82 

•0795 

to. 17 

22.21 

.0646 

8.26 

18.05 | 

.0696 

S. 90 

19 45 

.0746 

954 

20.84 

.0796 

10.18,22.24 

.0647 

8.2S 

18 08 | 

0697 

8.92 

1947 

.0747 

9-56 

20.87 

.0797 

10.20 22.27 

.0648 

8.29 

iS. 11 | 

.0698 

8 93 

19 50 

.0748 

9 57 

20. go 

.0798 

10.21 

22.30 

.0649 

8.30 

1S.13 i 

.o6gg 

8.94 

19.53 

• 07-19 

9.58I 

20.93 

.0799 

10.22 

22.32 



















































Phosphoric Acid Table. 


i i 


Gramme .0800—09919. 


Grm 

% 

% 

Grm. 

% 

% 

Grm. 1 

% 

'% 

Grm. 

% 

% 

O 


6 

O 


6 

O 


6 

O 


d 




ZL. 

ia 


Ph 

0 


Ph 

in 

Cu 

tx 

O 


tX 



tx 

<3 

rt 

tX 

O 

rt 

S 

Pi 

u 

S 


CJ 



0 



0 

.0800 

10.23 

22.35 

.0850 

10.87 

23-75 

.0900 

11 .51 

25-15 

.0950 

12.15 

26.54 

.0801 

10.25 

22.38 

.0851 

10.89 

23-78 

.0901 

H -53 

25-17 

.0951 

12.17 

26.57 

.0802 

10.26 

22.41 

.0852 

10.90 

23.80 

.0902 

11 54 

25.20 

.0952 

12.iS 

26.60 

.0803 

10.27 

22.44 

•0853 

10.91 

2383 

.0903 

n -55 

25-23 

•0953 

12.19 

26.63 

.0804 

10.29 

22.46 

.0854 

10.93 

23.86 

.0904 

11.56 

25.26 

•0954 

12.20 

26 65 

.0S05 

10.30 

22.49 

.0855 

1094 

23-89 I 

.0905 

11,58 

25.29 

•0955 

12.22 

26.68 

.0S06 

10.31 

22.52 

.0856 

10 95 

23.92 | 

.0906 

H -59 

25 31 

.0956 

12.23 

26.71 

.0807 

10.32 

22.55 

•0S57 

10.96 

23 94 ' 

.0907 

11.60 

25 34 

•0957 

12.24 

26.74 

.080S 

10 34 

22.58 

.0858 

10.98 

23-97 

.0908 

11.62 

25-37 

.095S 

12.26 

26 77 

.0809 

10.35 

22.60 

.0859 

10.99 

24 00 

.0909 

11.63 

25 40 

.0959 

12.27 

26.79 

.0810 

10.36 

22 63 

.0S60 

11.00 

24 03 

.0910 

11.64 

25-43 

.0960 

12.28 

26.82 

.0811 

10 38 

22.66 

.0861 

11.01 

24.06 

.0911 

11.65 

25-45 

.0961 

12.29 

26.85 

.0812 

10.39 

22.69 

.0862 

11.03 

24.08 

.0912 

11.67 

25.48 

.0962 

12.31 

26.88 

.0813 

10 40 

22.72 

.0S63 

11.04 

24 11 

• 0 9 r 3 

11.68 

25-51 

.0963 

12.32 

26.91 

.0814 

10.41 

22.74 

.0864 

n.05 

24.14 

.0914 

11.69 

25-54 

.0964 

12-33 

26.93 

.0815 

10.43 

22.77 

.0865 

n.07 

24.17 j 

.0915 

11.71 

25-57 

.0965 

12-35 

26.96 

.0816 

10.44 

22.80 

.0866 

11.oS 

24 20 

.0916 

11.72 

25-59 

.0966 

12.36 

26.99 

.0817 

10.45 

22.83 

.0867 

11.09 

24 22 ! 

.0917 

n-73 

25 62 

.0967 

12.37 

27 02 

.0S1S 

10 46 

22 S5 

.0868 

11 10 

24 25 

.0918 

11 74 

25 65 

.0968 

12.38 

27-05 

.0819 

10 48 

22.88 

.0S69 

11.12 

24.28 

.0919 

11,76 

25.68 

.0969 

12.40 

27 07 

.0820 

10 49 

22 91 

.0870 

ii.13 

24-31 

.0920 

11:77 

25.70 

.0970 

I2.41 

27.10 

.0821 

10.50 

22.94 

.0S71 

11.14 

24 34 

.0921 

11.78 

25-73 

.0971 

12.42 

27 13 

.0822 

10 52 

22.97 

.0872 

11 16 

24 36 

.0922 

r 1.80 

25.76 

.0972 

12-43 

27 16 

.0823 

10 53 

22.gg 

.0873 

11.17 

24-39 

■ 0923 

11 81 

25 79 

•0973 

12-45 

27.19 

.0824 

10 54 

23.02 

.0874 

11.18 

24 42 

.0924 

11.82 

25.82 

.0974 

12.46 

27.21 

.0825 

10.55 

23.05 

■0S75 

11.19 

24 45 

.0925 

11.83 

25.84 

•0975 

12.47 

27.24 

.0826 

xo.57 

23 08 

.0876 

11.21 

24.48 

.0926 

11 85 

25-87 

.0976 

12.49 

27.27 

.0827 

10.58 

23.11 

.0877 

11.22 

24.50 

.0927 

11.86 

25 9 ° 

.0977 

12 50 

27.30 

.0828 

10.59 

23.13 

.0S78 

11.23 

24 53 

.0928 

11 87 

25-93 

.0978 

12.51 

27-33 

.0829 

10.6r 

23.16 

.0879 

11.25 

24 56 

.0929 

11.88 

25.96 

.0979 

12.52 

27-35 

.0830 

10.62 

23.19 

.0880 

11 26 

24-59 

.0930 

11.90 

25 98 

.0980 

12-54 

27-38 

.0831 

10.63 

23 22 

.088.1 

11.27 

24.62 

0931 

11.91 

26.01 

0981 

12-55 

27.41 

.0832 

10 64 

^2325 

.0882 

11.28 

24.64 

.0932 

11 92 

26.04 

.0982 

12.56 

27.44 

•0S33 

10 66 

23.27 

.0SS3 

11.30 

24.67 

• 0933 

11 94 

26.07 

.0983 

12.58 

27.47 

.0834 

10.67 

2330 

.0884 

11.31 

24.70 

• >-' 1 1 

11.95 

26.10 

.0984 

12-59 

27.49 

•0835 

10.68 

23-33 

0885 

11 32 

24-73 

•0935 

11.96 

26 12 

•09S5 

12.60 

27.52 

.0836 

10.69 

23-36 

.0S86 

H -33 

24-75 

.0936 

11 97 

26.15 

.0986 

I2.6l 

27-55 

.0837 

10.71 

23 39 

.0887 

II -35 

24.78 

■0937 

11.99 

26.18 

.0987 

12.63 

27-58 

.0838 

10 72 

| 23 - 4 i 

.0888 

11.36 

24.81 

.0938 

12.00 

26 21 

.0988 

12.64 

27 60 

.0839 

10 73 

| 2 3-44 

.0889 

H -37 

24.84 

•0939 

12.01 

26.24 

.0989 

12.65 

27.63 

.0840 

10.75 

23-47 

0890 

H -39 

24.87 

.0940 

12.03 

26.26 

.0990 

12.67 

27.66 

.0841 

10.76 

23-50 

.0891 

11.40 

24.89 

.0941 

12.04 

26.29 

.0991 

12.68 

27.69 

.0842 

10.77 

23-53 

.0892 

11.41 

24.92 

.0942 

12.05 

26.32 

.0992 

12.69 

27.72 

.0843 

10.78 

23-55 

.0893 

11.42 

24.95 

•0943 

12.06 

26.35 

-0993 

12.70 

27 74 

.0844 

10.80 

23-58 

.0894 

11.44 

24.98 

•0944 

12.08 

26.38 

.0994 

12.72 

27.77 

.0845 

10.81 

23.61 

.0895 

H -45 

25.01 

.0945 

12.09 

26.40 

.0995 

12.73 

27.80 

.0S46 

10.82 

23.64 

.0S96 

11.46 

25-03 

.0946 

12.10 

26.43 

.0996 

12.74 

27.83 

.0847 

10.84 

23.67 

.0S97 

11.48 

25.06 

.0947 

12.11 

26.46 

.0997 

12.75 

27.86 

.0848 

10.85 

23.69 

.0898 

11.49 

25.09 

.0948 

12.13 

26.49 

.0998 

12.77 

27.88 

.0849 

10.86 

23.72 

.0899 

11.50 

25.12 

.0949 

12.14 

26.52 

.0999 

12.78 

27 91 



















































12 


Phosphoric Acid Table. 


Gramme .1000—.1199. 


Grm. 

% 

c / 

/o 

Grm. 

c/ 

7 o 


Grm. 


% 

Grm. 

% 

% 

O 


6 

0 


O* 

O 


6 

O 


6 

Pl- 

tf) 

0 

pT 

C3 

P^ 

tf) 

0 

pT 

p- 

tL 

<0 

pT 

pu 

tio 

O 

P- 

C3 

<3 

Ch 

O 


Pu 

u 



u 



G 

.1000 

12.79 

27.94 

.1050 

13-43 

2934 

. 1100 

14.07 

30.73 

.1150 

U.71 

32.13 

.1001 

12.81 

27-97 

.1051 

13-45 

29.36 

.1101 

14.09 

30.76 

.1151 

14.72 

32.16 

. 1002 

12.82 

28.00 

.1052 

13-46 

29 39 

.1102 

14.10 

30.79 

.1152 

14-74 

32.19 

.1003 

12.S3 

28.02 

• 1053 

13-47 

29 42 

.1103 

14.11 

30.82 

• 1153 

14-75 

32.21 

.1004 

12.S4 

28.05 

.1054 

I 3-43 

29-45 

. 1104 

14.12 

30.85 

• 1154 

14.76 

32.24 

.1005 

12.86 

28.08 

• 1055 

13-50 

29-48 

.1105 

14-14 

30.87 

■ 1155 

I 4 - 7 S 

32.27 

.1006 

12.87 

28.11 

.1056 

13-51 

29.50 

.1106 

1415 

30.90 

.1156 

14-79 

32.30 

. 1007 

12.88 

28.14 

• 1057 

£ 3-52 

29 53 

.1107 

14.16 

30.93 

■ 1157 

14.So 

32-33 

.100S 

12.90 

28.16 

.1058 

13-53 

29.56 

.1 108 

14.17 

30.96 

.1158 

14.81 

32-35 

. 1009 

12.91 

28.19 

.1059 

13-55 

2 9-59 

.1109 

14.19 

30.99 

■ 1159 

14 S3 

32.38 

. IOTO 

12.92 

28.22 

. 1060 

I 3-56 

29.62 

.1110 

14.20 

30.01 

.1160 

14.84 

32.41 

.1011 

12.93 

28.25 

.1061 

13-57 

29 64 

.1111 

14.21 

31.04 

.1161 

14.85 

32-44 

.1012 

12.95 

2S.28 

.1062 

£ 3-59 

29.67 

.1112 

14-23 

31 07 

.1162 

14.87 

32-47 

.1013 

12.96 

2S.30 

.1063 

13 60 

29.70 

.1113 

14.24 

31.10 

• 1163 

14.8S 

32.49 

.1014 

12.97 

2S.33 

. 1064 

13.61 

29-73 

.1114 

14-25 

31-13 

.1164 

14 8q 

32 52 

.1015 

12.98 

2S.36 

. 1065 

13.62 

29.76 

.1115 

14.26 

3 i-i 5 

.1165 

14.90 

32-55 

,IOl6 

13.00 

28.39 

.1066 

13 64 

29.78 

.1116 

14.2s 

31.18 

.1166 

14.92 

32 - 5 S 

.1017 

13.01 

28.41 

.10671 

£ 3 - 65 j 

29.81 

.1117 

14.29 

31.21 

.1167 

14-93 

32.61 

.IOl8 

13.02 

28.44 

.1068 

13.66 

29.84 

.1118 

14-30 

3 £- 2 ; 

.1168 

14.94 

3263 

.IOig 

13-04 

28 47 

.1069 

13.68 

29-87 

.1119 

14.32 

31.26 

. 1169 

14.96 

32.66 

. 1020 

£305 

28.50 

.1070 

13.69 

29.90 

.1120 

14 33 

31.29 

.1170 

14-97 

32.69 

. 1021 

13.06 

28.53 

. 1071 

13.70 

29.92 

.1121 

14-34 

31-32 

.1171 

14-98 

32.72 

.1022 

1307 

28.55 

.1072 

£ 3-71 

29-95 

.1122 

14-35 

31-35 

.1172 

14 99 

32-75 

.1023 

13.09 

28.58 

• 1073 

13 73 

29.98 

.1123 

14-37 

3 I- 3 S 

•1173 

15.01 

32-77 

.1024 

13.10 

28.61 

.1074 

13-74 

30.01 

1124 

I 4-38 

31-40 

•1174 

15.02 

32.80 

.1025 

13 11 

28.64 

.1075 

13-75 

30.04 

.1125 

14-39 

31-43 

•1175 

£ 5-03 

32.83 

.1026 

13-13 

28.67 

. 1076 

13-77 

30.06 

.1126 

14.40 

3 I -46 

.1176 

15-04 

32.86 

. 1027 

£ 3- T 4 

2S.69 

.1077 

I 3-78 

30.09 

.1127 

14.42 

31-49 

.1177 

15.06 

32.89 

.1023 

13-15 

28.72 

. 1078 

13-79 

30.12 

. 1128 

£4 43 

31-52 

.117S 

15-07 

32.91 

.1029 

I 3 -I& 

28.75 

.1079 

13.So 

30.15 

.1129 

14 44 

31-54 

•1179 

15.08 

32.94 

.1030 

13.18 

28.78 

.10S0 

13-82 

30.18 

.1130 

14.46 

31-57 

.1180 

15.10 

32-97 

.1031 

1319 

28.81 

.T0S1 

i 3 - 83 j 

30.20 

.1131 

14-47 

31.60 

.1181 

I 5 -H 

33-00 

.1032 

13.20 

28.83 

.1082 

13-84, 

30.23 

.1132 

14.48 

31 63 

.1182 

15.12 

33-03 

• 1033 

13.22 

28.86 

.I0S3 

1385 

30.26 

• 1133 

14-49 

31-66 

. 1183 

15-13 

33-05 

.1034 

£ 3-23 

28.89 

.1084 

13.87, 

30.29 

• 1134 

I 4 - 5 I 

31-6S 

. 11S4 

15-15 

33-08 

• 1035 

13-24 

28.92 

.1085 

13.88 

30.31 

• 1135 

I 4 i 52 

31-71 

-I1S5 

15.16 

33 -H 

.1036 

13-25 

28.95 

.1086 

13 -Sg 

30-34 

.1136 

14-53 

31-74 

. 1186 

I 5 -I 7 

33-14 

■ 1037 

£ 3-27 

2S.97 

. 1087 

13 - 9 I 

30.37 

• 1137 

14-55 

31-77 

.1187 

15.19 

33.16 

.103s 

13.28 

29.00 

.10SS 

13.92 

30.40 

• 113s 

14-56 

31.80 

.1188 

15.20 

33-19 

.1039 

13.29 

29.03 

.1089 

13-93 

30-43 

• 1139 

14-57 

31.S2 

. 1189 

15.21 

33-22 

.1040 

13-30 

29.06 

. 1090 

13-94 

30-45 

.1140 

I 4-58 

31-85 

.1190 

15.22 

33-25 

.1041 

13-32 

29 09 

.1091 

13.96 

30.48 

.1141 

14.60 

31-88 

. 1191 

15-24 

33-28 

.1042 

13 33 

29.11 

.1092 

13-97 

30-51 

.1142 

14.61 

3 i- 9 i 

.1192 

15-25 

33-30 

• 1043 

13-34 

29.14 

.1093 

13-98 

30-54 

• 1143 

14.62 

31.94 

•1193 

15.26 

33-33 

.1044 

I 3-36 

29.17 

.1094 

14.00 

30.57 

• 1144 

14.64 

31.96 

■ 1194 

15-27 

33-36 

.1045 

13-37 

29.20 

.1095 

14.01 

30-59 

• 1145 

14 - 65 , 

31-99 

•1195 

15-29 

33-39 

.ro46 

I 3-33 

29.23 

.1096 

14.02 

30 62 

.1146 

14.66 

32.02 

.1196 

15-30 

33-42 

.1047 

13-39 

29.25 

.1097 

1403 

30.65 

.1147 

14.67 

32.05 

• 1197 

15-31 

33-44 

.104S 

I 3 - 4 I 

29.28 

. 1098 

14.05 

30.68 

.1148 

14.69 

32.08 

.1198 

£ 5-33 

33-47 

.1049 

13-42 

29.31 

.1099 

14.06 

30.71 

.1149 

14.70 

32.10 

•1199 

15-34 

33-50 













































Phosphoric Acid Table. 


13 


Cirainine .1200 —.1399. 


Grm 

% 

% I 

Grm. 


% 

Grm. 

% 

% 

Grm. 

% 

% 

d 


6 

d 


6 

d 


6 

d 


6 


Is 


(L 



e- 

[r. 

r ™ 

Ph 

«*» 


tL 



tn 

<0 


t >J 

O 

rt* 


CD 

n 


Ch 

CJ 

S 


u 

s 

Ph 

u 



0 

1 0 

0 

<N 

r 5 • 35 

33-53 

.1250 

15.99 

34-93 

.1300 

16.63 

36 32 

■ 1350 

17.27 

37-72 

.1201 

15-36 

33-56 

.1251 

16.00 

34 95 J 

.1301 

16.64 

36.35 

• 1351 

17.2S 

37-75 

.1202 

I 5-33 

33-58 

.1252 

16.02 

34 - 9 s 

.1302 

16.66 

36.38 

■ 1352 

17-30 

37-77 

.1203 

15 39 

33 - 6 i 

• 1253 

16.03 

35-01 

• 1303 

16.67 

36.41 

• 1353 

I 7 - 3 I 

37.80 

. I20p 

15-40 

33 64 

• 1254 

16.04 

35-04 

• 1304 

16.6S 

36.43 

• 1354 

17-32 

37-83 

.1205 

15-42 

33-67 

.1255 

16.06 

35 -o 6 

■ 1305 

16.69 

36.46 

• 1355 

17-33 

37-86 

. 1206 

15-43 

33-70 

.1256 

16.07 

35-09 

.1306 

16.71 

36.49 

• 1356 

17-35 

37-89 

.1207 

15-44 

33-72 

•1257 

16.08 

35-12 

• 1307 

16.72 

36 52 

• 1357 

17-36 

37-91 

. 1208 

15-45 

33-75 

.1258 

16 09 

35-15 

1308 

16.73 

36.55 

.1358 

17-37 

37-94 

.1209 

15-47 

33-78 

•1259 

16.11 

35-13 

.1309 

16.75 

36.57 

• 1359 

17-39 

37-97 

.1210 

15.48 

33 -Si 

.1260 

16.12 

35-20 

.1310 

16.76 

36.60 

.1360 

17.40 

38.00 

.1211 

15-49 

33-84 

. 1261 

16.13 

35-23 

.1311 

16.77 

36.63 

.1361 

17.41 

38.03 

. 1212 

I 5 - 5 I 

33-86 

.1262 

16.14 

35.26 

.1312 

16.78 

36.66 

.1362 

17.42 

3S.05 

.1213 

15-52 

33 89 

.1263 

16.16 

35-29 

• 1313 

16.80 

36.69 

• 1363 

17-44 

38.08 

.1214 

15-53 

33-92 

.1264 

16.17 

35-32 

• 1314 

16.81 

36.71 

• 1364 

17-45 

3S.11 

.1215 

15 54 

33-95 

.1265 

16. iS 

35-34 

• 1315 

16.S2 

36-74 

• 1365 

17.46 

38.14 

.1216 

15.56 

33-98 

.1266 

16.20 

35-37 

.1316 

16.84 

36.77 

.1366 

17.48 

38.17 

.1217 

15-57 

34.00 

.1267 

16.21 

35-40 

• 1317 

16.85 

36.80 

• 1367 

17-49 

38.19 

.1218 

15.58 

34-03 

.126S 

16.22 

35-43 

.! 3!8 

16.86 

36.82 

.1368 

17-50 

3S.22 

.1219 

15-59 

34.06 

.1269 

16.23 

35-46 

.1319 

16.87 

36.85 

.1369 

17.51 

38.25 

.1220 

15.61 

34 09 

.1270 

16 25 

35-48 

.1320 

16.89 

36-88 

• 1370 

17-53 

38.28 

. 1221 

15-62 

34 -n 

.1271 

16.26 

35-51 

.1321 

16.90 

36.91 

■ 1371 

17-54 

38-31 

.1222 

15-63 

34-14 

.1272 

16.27 35.54 

.1322 

16.91 

36.94 

• 1372 

17-55 

38-33 

.1223 

15-65 

34-17 

•1273 

16.29 35.57 

.1323 

16.93 36.96 

• 1373 

I 7-56 38-36 

.1224 

15 66 

34.20 

.1274 

16 30 35.60 

• 1324 

16.94 36.99 

• 1374 

I 7-58 38-39 

.1225 

15-67 

34-23 

-1275 

16.31 35.62 

• 1325 

16.95 

37.02 

• 1375 

17-59 

3S.42 

.1226 

15.68 

34-25 

.1276 

16.32 

35-65 

.1326 

16.96 

37-05 

• 1376 

17.60 3S.45 

. 1227 

15-70 

34-28 

•1277 

16.34:35.68 

■ 1327 

16.98 37.08 

• 1377 

17.62 

38-47 

.1228 

I 5 - 7 I 

34-31 

1278 

16.35 35-71 

.1328 

16.99 

37 -io 

• 137s 

17-63 

38.50 

.1229 

15-72 

34-34 

•1279 

16.36,35.74 

• 1329 

17.00 

37-13 

• 1379 

17.64 

38-53 

.1230 

15-74 

34-37 

.1280 

16.3S 35 76 

• 1330 

17.01 

37.16 

.1380 

17.65 

38.56 

.1231 

15-75 

34-39 

.1281 

16.39 35-79 

• 1331 

17-03 

37-19 

1381 

17.67 

38.59 

.1232 

I 5-76 

34 42 

.1282 

16.40 35.82 

• 1332 

17.04 

37.22 

.1382 

17.68 38.61 

.1233 

15-77 

34-45 

.1283 

16.41 

35-85 

• 1333 

17-05 

37-24 

• 13S3 

17.69 38.64 

•1234 

15-79 

34 48 

.1284 

16.43I35.87 

■ 1334 

17.07 

37-27 

■ 1384 

17.71 

38.67 

•1235 

15.So 

34-51 

.12S5 

16.44 

35 - 9 ° 

■ 1335 

17.08 

37-30 

• 1385 

17.72 

138 - 7 ° 

.1236 

15.81 

34-53 

. 1286 

16.45 

35-93 

.1336 

17.09 

37-33 

.1386 

17-73 

38-72 

.1237 

15.82 

34-56 

•1287 

16.4635.96 

-1337 

17.10 

37-36 

• 1387 

17-74 

38-75 

.1238 

15.84 

34-59 

.1288 

16 48 

35-99 

■ 1338 

17.12 

37-38 

.I3SS 

17.76 

38.78 

.1239 

15-85 

34.62 

.1289 I6.49 36.01 

• 1339 

I 7 -I 3 

37-41 

• I3S9 

17-77 

38.81 

.1240 

15.86 

34-65 

.1290 

16.50 36.04 

1340 

17.14 

37-44 

• 1390 

I 7 - 7 S 

38.84 

. 1241 

15-88 

34-67 

. I2ql 

16.52 

36 07 

• 1341 

17.16 

37-47 

• 1391 

17.80 

38.86 

.1242 

15.89 

34-70 

.1292 

16.53 

36.10 

• 1342 

17.17 

37-50 

• 1392 

17.81 

38.89 

.1243 

15.90 

34-73 

•1293 

16-54 

36.13 

■ 1343 

17.18 

37-52 

■ 1393 

17.S2 

3S.92 

.1244 

15 9 1 

34-76 

■1294 

16.55 

36.15 

• 1344 

I 7 -I 9 

37-55 

• 1394 

17-S3 

38.95 

.1245 

15 93 

34-79 

■1295 

i 6-57 

36.18 

• 1345 

17.21 

37-58 

-1395 

17-85 

38.9S 

.1246 

15-94 

34 -Si 

.1296 

16.58 

36.21 

• 1346 

17.22 

37 . 6 i 

.1396 

17.86 

39.00 

.1247 

15-95 

34-84 

.1297 

16.59 

36.24 

• 1347 

1723 

37-64 

■ 1397 

17.87 

39-03 

.X248 

15-97 

34-87 

.1298 

16.61 

36.27 

I-1348 

17.24 

37 66 

.1398 

17.88 

39 06 

.1249 

15 98 

34-90 

•1299 

16.62 

36.29 

• 1349 

17.26 

37-69 

-1399 

17.90 

39-09 




























































H 


Phosphoric Acid Table. 


Gramme .1400—.1599. 


Grm. 

% 

% 

Grm. 

% 

% 

Grm. 

%'\ 

% 

Grm 

% i 

% • 

<q 


6 

q 


6 

q 


6 

4 , 


0 

CL 

tn 

O 

a 

CL 

tD 

q 

n c 

tn 

OJ 


in 

q 

CL 

IS 

Ph 

CJ 



0 


L | 

u 



0 

.1400 

17 91 

39.12 

.1450 

18.55 

40.51 

.1500 

19-19 1 

41 91 

•1550 

19 S3 

43-31 

. 1401 

'7 92 

39 14 

.1451 

18.56 40.54 

1501 

19.20 

4 t 94 

•1551 

19-84 

43-33 

. 1402 

'7 94 

39 !7 

• 1452 

18.5b 

40 57 

.1502 

19 22 

41-97 

•1552 

19-85 

43-36 

•1403 

17 95 

39.20 

• 1453 

1S.59 

40 60 

• 1503 

19.23 42.99 

•1553 

19.87 

43-39 

.1404 

17.96 

39-23 

.1454 

18 60 

40 62 

• 1504 

19-24 

42.02 

•1554 

19 88 

43.42 

.1405 

' 7-97 

39.26 

• 1455 

18 61 

40.65 

• 1505 

19 25 

42 05 

•1555 

19 89 

43-45 

. 1406 

■7 99 

39 2S 

.1456 

18.63 

40.6 8 

. 1506 

19 27 

42.08 

•1556 

19.91 

43-47 

.1407 

18.00 

39-31 

• 1457 

18 64 40.71 

• 1507 

19 28 

42 11 

•‘557 

IQ.92 

43 - 5 <> 

. 140s 

18.01 

39-34 

• 145S 

rS.65 

40.74 

.1508 

19.29,42 13 

■1558 

19-93 43-53 

. t4Cq 

18.03 

39-37 

• 1459 

18.66 

40.76 

.1509 

19 30 42.16 

•1559 

19.94 

43-56 

. 1410 

18.04 

39-40 

. 1460 

18.6S 

40.79 

.1510 

19 32 

42.19 

.1560 

19 9 f) 

43-59 

. r 411 

18.05 

39 42 

. 1461 

iS 69 

40.82 

.1511 

1933 

42.22 

.1561 

19.97 

43 61 

. 1412 

18.06 

39 45 

. 1462 

18.70 

40.85 

.1512 

19 34 

42 25 

.1562 

19.98 

43-64 

1413 

1S.08 

39-43 

1463 

1S.72 

40.88 

-1513 

19.36 

42.27 

•1563 

20.00 

43-67 

.1414 

1 8.09 

39 5 i 

.1464 

i 8.73 40.90 

• 1514 

19-37142.30 

• 1564 

20.01 

43-70 

-1415 

18.10 

39-54 

• '4651 

18.74 40.93 

■ 1515 

19.33 42.33 

• 1565 

20.02 

43-73 

.1416 

iS. 11 

39 56 

. 1466 

i 8.75 

40.96 

.1516 

19-39 

42.36 

.1566 

20.03 

43-75 

.1417 

[8.13 

39-59 

.1467 

i 8./7 

40.99 

1517 

19.41 

42.38 

| .1567 

20.05 

43-78 

. 1418 

18.14 

39 62 

. 1468 

18.78 41.02 

1518 

19 42 

42.41 

.1568 

20.06 

43 81 

.1419 

18 15 

39 65 

.1469 

18.79 

41.04 

1519 

1 1-43 

4244 

.1569 

tv 

0 

0 

43-84 

. i420 

1 3 .17 

39- 6 7 

.1470 

iS Si 

41 07 

.1520 

19-45 

42.47 

•1570 

20 09 

43-87 

. [421 

18. iS 

39 - 70 

.1471 

18.82 

41 10 

..521 

19 46 

42 50 

-t 57 i 

20 10 

43-89 

. 1422 

iS. 19 

39 73 

.1472 

rS 83 

4 ' 13 

.1522 

19 47 1 42 52 

■1572 

20 £ I 

43 9 2 

■1423 

iS. 20 

39 76 

1473 

1S.S4 

41.16 

• 1523 

19 48 

42 55 

•1573 

20 12 

43-95 

.1424 

18.22 

39-79 

• 1474 

18 S6 41.1S 

• 1524 

'9 50:42 58 

• 1574 

20.14 

4398 

■1425 

18.23 

39 - 8 i 

■ 1475 

tS 87 41.21 

■ 1525 

19 S' 

42 61 

■ 1575 

20.15 

44.01 

. 1426 

18.24 

39 84 

.1476 

1 b. SS 

41 24 

.1526 

19-52 

42.64 

.1576 

20.16I44.U3 

.1427 

1S.26 

39-87 

•1477 

i8 90 

41 27 

■ 1527 

19-53 

42 66 

■ 1577 

20 17 

44.06 

. 1428 

18.27 

39-90 

147S 

18 91 

4 i 30 

.1528 

19 55 42 .69 

.1578 

20.19 44.09 

.1429 

18.28 

39-93 

•1479 

1S.92 

41-32 

1329 

19 56 

4.2.72 

-1579 

20 20 

44.12 

.1430 

18 29 

39 95 

. 14S0 

18 93 

41-35 

• <530 

19 57 

42.75 

• 1380 

20.21 

44-15 

•1431 

18 31 

39 98 

.1481 

18 95 

41 38 

• 1531 

19.59 42 7S 

.1581 

20.23 

44-17 

■ 1432 

1S.32 

40.01 

. 1482 

18. 96 

41.41 

1532 

19.00 

42.80 

.1582 

20.24 

44 20 

•1433 

'3.33 

40.04 

•1483 

ib 97 

41 44 

• 1533 

19.61 

42 83 

■15S3 

20.25 

44-23 

• '434 

18.35 

40.07 

■1484 

18.9b 

D 46 

1534 

19.62 

42 86 

•1584 

20.26 

44.26 

• '135 

18.36 

40 0 ) 

-1483 

19.00 

41 49 

1535 

19 64 

42 89 

■ 1585 

20.28 

44.2S 

• 1436 

i 8.37 

40.12 

. 14S6 

19 01 

41.52 

-1536 

I19 65 

42.92 

. 1586 

20.29 

44 3 i 

•M37 

18.38 

40.15 

14S7 

19 02 

4i 55 

• 1537 

1 19 66 

42.94 

.1587 

20.30 

44-34 

• 1438 

18.40 

40 T 8 

.1488 

19.04 

41-57 

.1538 19.68 

42.97 

■15S8 

20.32 

44 37 

•'439 

18.41 

40 21 

.1489 

19.05 

41.60 

1539 

19.69 

43 00 

•1589 

20.33 

44.40 

.1440 

18.42 

40.23 

.1490 

19.0 > 

41-63 

• 1540 

19-70 

43 03 

-1590 

20.34 

44-42 

.144' 

18.43 

40.26 

•1491 

19.07 

4r.66 

• 1541 

19.71 

43.06 

•1591 

20.35 

44-45 

.1442 

18.45 

40.29 

.1492 

19-09 

41.69 

• 1542 

H9-73 

43-oS 

•1592 

20.37 

44-48 

• 1443 

18.46 

40.32 

-1493 

19 10 

41.71 

-1543 

H9-74 

43-11 

■ 1593 

20.3 s 

44-51 

.1444 

18.47 

40-35 

.1494 

19.11 

41-74 

• 1544 

H9-75 

43-14 

•1594 

20.39 

44-54 

• 1445 

1S.49 

40.37 

•1495 

19 13 

41-77 

• 1545 

19 77 

43-17 

• 1595 

20.40 

44-56 

.1446 

1S.50 

40.40 

.1496 

19.14 

41.80 

•1546 19-78 

43-20 

.1596 

20.42 

44-59 

• 1 147 

18.51 

40.43 

■1497 

r 9- T 5 

41-83 

• 1547 

H9-79 

43.22 

•1597 

20.43 

44.62 

.1448 

18.52 

40.46 

.1498 

19.16 

41.85 

.1548 

19.80 43.25 

.1598 

20.44 

144-65 

1449 

18.54 

40.49 

.1499 

19.18 

41.88 

• 1549 

119.82 

'43-28 

■1599 

1 2O.46l44.6b 



















































Phosphoric Acid Table. 


i5 


Ciramme .1600 — .1799. 


Grm. 

% 

% | 

C rm. 


% 

Gi m. 

fo 

% | 

Grm. 

% 

% 

0 


C I 

C 


6 

O 


d 

O 


6 

tfj | 

O 

pT 

ti 

a 

0 : 

pT 

CJ 

PP 

t /. 

C 

rt’ 

pi 

tX 

O 

pT 

05 

s 

P* 

u 

S 

P- 

u 

s 

Q_ ' 

u 


0! 

U 

.1600 

20.47 I 

44.70 

.1650 

21.11 

46.10 

.1700 

21-75 

47-50 

• 175 ° 

22.3 > 

48.90 

. 1601 

20.48 

44 73 

1651 

21.12 

46.13 

. 1701 

21.76 47.53 

■I 75 i 

22.40 

48.92 

. 1602 

20.49 

44.76 

.1652 

21.13 

46.16 

.1702 

21-77 

47-55 

1752 

22 41 

48.95 

1603 

20.51 

44 79 

• 1653 

21.15 46.18 

.1703 

21.79 47.58 

•1753 

22.43 

48 98 

.1604 

20.52 

44.82 

.1654 

2116 

46 21 

■ 1704 

21.80 47.61 

•1754 

22.44 

49.01 

.1605 

20.53 

44 84 

.1655 

21.17 

46.24 

• 1705 

21.81 

47.64 

•1755 

22.45 

49-°3 

.1606 

20.55 

44.87 

.1656 

21.19 

46 27 

.1706 

21.82 

47.67 

•1756 

22.46 

49.06 

.1607 

20.56 

44.90 

• 1657 

21.20 

46.30 

.1707 

21.84 

47 69 

1757 

22.48 

49.09 

. 1608 

20.57 

44-93 

.1658 

21.21 

46.32 

1708 

21.85 

47-72 

• 175 S 

22.49 

49.12 

. i6og 

20.58 

44 9 6 

.1659 

21.22 

46.35 

.1709 

21.86 

47-75 

•1759 

22.50 

49-15 

. 1610 

20.60 

44 9 s 

. 1660 

2124 

46.38 

.1710 

21 88 

47-78 

.1760 

22.52 

49 17 

.1611 

20.61 

45-01 

.1661 

2125 

46 41 

.1711 

21.89,47.81 

.1761 

22.53 

49.20 

.1612 

20.62 

45 04 

.1662 

21.26 

46.44 

.1712 

21.90I47.S3 

.1762 

22.54 

49-23 

.1613 

20.64 45 07 

.1663 

21.27 

46.46 

• 1713 

21.91 47.86 

1763 

22.55 

49 26 

.1614 

20.65 

45-10 

. 1664 

21.29 46.49 

.1714 

21.93 47-89 

■ 1 764 

22.571 

49.29 

.1615 

20.66 

45-12 

.1665 

21.30 46.52 

.1715 

21.94 47 - 9 2 

■1765 

22.58 

49-31 

. 1616 

20.67 

45-15 

.1666 

21.31 

46.55 

.1716 

21.95 47-95 

. 1766 

22.59 

49-34 

. 1617 

20.69 

45.18 

.1667 

21.33 

46.58 

.1717 

21.97 

47-97 

•1767 

22.61 

49-37 

.1618 

20.70 

45-21 

.1668 

21-34 

46.60 

.1718 

21.98 

48 00 

. 176S 

22.62 

49.40 

.1619 

20.71 

45-23 

. 1669 

21-35 

46.63 

.1719 

21 99 

48 03 

.1769 

22.63 

49-43 

. 1620 

20.72 

45 26 

. 1670 

21 36 

46.66 

1720 

22 00 

48.06 

.1770 

22.64 

49-45 

. 1621 

20.74 

^ . 2Q 

.1671 

21.38 

46 69 

■ 1 721 

22 02 

48 08 

.1771 

22.66 

49 48 

. 1622 

20.75 

45 32 

i 1672 

21.39 

46.72 

. 1722 

22.03 

48.11 

.1772 

22.67 

49-51 

.1623 

20.76 

45-35 

■ 1673 

21.40 

46 74 

1723 

22.04 

48 14 

■1773 

22.68 

49-54 

. 1624 

20.78 

45 37 

: -1674 

21.42 

46 77 

1724 

22.06 48.17 

• 1774 

22.69 

49-57 

.1625 

20 79 

45 40 

• 1675 

21 43 

46.80 

.1725 

22.07 48.20 

• 1775 

22.71 

49-59 

.1626 

20. bo 

45 43 

.1676 

21.44 

4683 

. 1726 

22.08 

4S.22 

.1776 

22.72 

49.62 

.1627 

20.81 

45 46 

! .1677 

21-45 

46.86 

■!727 

22 09 48.25 

-1777 

22 73 

49.65 

.1628I20.S3 

45-49 

\ 1678 

21.47 

46.88 

1728 

22.11 

48.28 

■I 77 S 

22.75 

49.68 

. 1629 

20 84 

45-51 

1 .1679 

21.48 46.91 

1 1729 

22 12 

48.31 

•1779 

22.76 

49-71 

.1630 

20.85 

45 54 

.1680 

21.49 46.94 

.1730 

22.13 

aS -34 

.1780 

22.77 

49-73 

.1631 

20.87 

45-57 

. 1681 

21.51 

46 97 

• 1731 

22.14 

48.36 

1781 

22.78 

- 19 - 76 

.1632 

20.88 

4 c 60 

16S2 

21.52 

47.00 

.1732 

22. i6!48.39 

.1782 

22.80 

49-79 

.1633 

20.89 

45-^3 

.1683 

21-53 

47.02 

• 1733 

22.17 

48 42 

■1783 

22.81 

49.82 

.1634 

20.90 

45.65 

. 1684 

21.54 47.05 

• 1734 

22.18 

48.45 

.1784 

22.82 

49.84 

1635 

20.92 

45.68 

.1685 

21.56 

47.08 

1735 

22.20 

48 48 

.1785 

22.84 

49- s 7 

.1636 

20.93 

45-71 

.1686 

21 57 

47 - TI ' 

1736 

22.21 

48.50 

.1786 

22.85 

49.90 

.1637 

20.94 

45 74 

. 1687 

21.58 47-13 

• 1737 

22 22 

48.53 

■1787 

22.86 

49-93 

.1638 

20.95 

45-77 

.1688 

21.5947.16 

• 1738 

22.23 

48.56 

.1788 

22.87 

49.96 

.1639 

20.97 

45-79 

. 1689 

21.61 

47-19 

• 1739 

22.25 

48.59 

.1789 

22.8g 

49.98 

.1640 

20.98 

45.82 

.1690 

21.62 

47.22 

1740 

22.26 

48.62 

.1790 

22.90 

50.01 

. 1641 

20. gg 

45-85 

.1691 

21.63 

47-25 

■ 1741 

22.27 

48.64 

.1791 

22.91 

50.04 

. 1642 

21.01 

45.88 

. 1692 

21.65 

47-27 

.1742 

22. 29 

48 67 

.1792 

22.93 

50.07 

.1643 

21.02 

45-91 

.1693 

21.66 

47-30 

1743 

22.30 

48.70 

• 1793 

22.94 

50.10 

.1644 

21.03 

45-93 

.1694 

21.67 

47-33 

• 1744 

22.31 

48.73 

• 1794 

22.95 

50.12 

. 1645 

21.04 

45-96 

.1695 

21.68 

47-36 

.1745 

22.32 

48.76 

• 1795 

22.96 

50.15 

.1646 

21.06 

45-99 

.1696 

21.70 

47-39 

.1746 

22.34 

48.78 

• i 79 f 

22.98 

50.18 

.1647 

21.07 

46.02 

.1697 

21.71 

47-41 

• 1747 

22.35 

48.81 

.1797 

22.91; 

50.21 

. 1648 

21.08 

46.05 

. 169.8 

21.72 

47-44 

.1748 

22.36 

48.84 

.1798 

23.0c 

50.24 

.1649 

21.10 

46.07 

.1699 

21.74 

47-47 

■ 1749 

22.37 

48.87 

.1799 

23.01 

50.26 



















































i6 


Phosphoric Acid Table, 


(Iraninie .1800—•1999* 


Grm. 

% 

% 

Grm. 

c / 

7 o 


G rm . 

% 

% 

Grm. 

% 

c / 

/ O ' * 

O 


6 

O 


0 

O 


6 

O 


0 

P- 


pp 

Ph° 


Pl/ 

PH 

w 


Pw 

w 

Ph 

b /3 

O 


tS 

O 


bS 

0 


bJD 

0 

cT 

S 

Ph 

u 


Ph 

u 

2 

Ph 

0 


Ph 

6 

.1S00 

23 03 

50.29 

.1850 

23 67 

51.69 

. 1900 

24-31 

5309 

.1950 

24-95 

54-48 

.1801 

23 04 

50.32 

.1851 

23.68 

51-72 

.1901 

24.32 

53 -n 

.1951 

24.96 

54-51 

.1802 

23-05 

50.35 

.1852 

23.69 

51-74 

. 1902 

24-33 

53-14 

.1952 

24 97 

54-54 

.1803 

23.07 

50.38 

•1S53 

23-71 

51-77 

.1903 

24-35 

53-17 

■ 1953 

24 98 

54-57 

. 1804 

23.08 

50.40 

.1854 

23.72 

51.So 

.1904 

24.36 

53.20 

• 1954 

25.00 

54-59 

.1805 

23.09 

50.43 

•1S55 

23-73 

51-83 

.1905 

24-37 

53-23 

■ 1955 

25.01 

54-62 

.1806 

23.10 

50.46 

.1856 

23-74 

51-86 

.1906 24.38 

53-25 

.1956 

25.02 

54-65 

.1807 

23.12 

50.49 

.1857 

23.76 

51.88 

.1907 

24.40 

53 - 2 S 

• 1957 

25-04 

54.68 

.180S 

23-13 

50.52 

.1858 

2 3 - 77 i51 91 

.1908 

24.41 

53-31 

• 195s 

2505 

54-71 

.1809 

23-14 

50.54 

• 1S59 

23 - 7 S 

51-94 

.1909 

24 42 

53-34 

■ 1959 

25.06 

54-73 

.1S10 

23.16 

50.57 

.i860 

23-79 

5 1 97 

. 1910 

24-43 

53-37 

. i960 

.25.07 

54.76 

.1811 

23-17 

50.60 

.1861 

23.81 

52.00 

.19:1 

24-45 

53-39 

. 1961 

25.09 54.79 

. 1812 

23 IS 

50.63 

.1862 

23.82 

52.02 

. 1912 

24.46 

53-42 

. 1962 

25.10 54.82 

.1S13 

23.19 

50.66 

.1S63 

23-83 

52.05 

■ 1913 

24.47 

53-45 

.1963 

25.11 

54-85 

.1814 

23.21 

50.68 

.1864123.85 

52.08 

.1914 

24.49 

53-48 

.1964 

25-13 54-87 

.1815 

23.22 

50.71 

.1865 

23.S6 

52.11 

• 1915 

24-50 53-51 

.1965 

25.14 54.90 

.1816 

2323 

50.74 

.1866 

23-87 

52.14 

. 1916 

24-51 

53-53 

.1966 25.15 54-93 

.1817 

23.24 

50.77 

.1807 

23.88 

52.16 

.1917 

24 52 

53-56 

•1967, 

25.16)54.96 

.1818 

23.26 

50.79 

.1868(23.90 52.19 

. 1918 

24 54 

53 59 

.1968 

25.18 

54 99 

.1S19 

23.27 

50.82 

.i869'23.9i 

52.22 

.1919 

24 55 

53-62 

.1969 

25.19 55.01 

.1820 

23.28 

50.85 

.1870:23.92'52.25 

. 1920 

24.56 

53-64 

.1970 

25.20 55.04 

. 1821 

23-30 

50.S8 

.1871 

23 94 

52.2S 

.1921 

24 - 5 S 

53-67 

.1971 

25.22 

55-07 

.1S22 

23 3 1 

50.91 

.1872 

23-95 

52.30 

.1922 

24-59 

53-70 

.1972 

25.23 55.ro 

. 1823 

23.32)50.93 

-1873 

23.96 

52-33 

.1923 

24.60 

53-73 

• 1973 

25.24 

55-13 

.1824 

23-33)50.96 

.1874 23.97 

52.36 

.1924 

24.61 

53-76 

.1974 

25-25 

55-15 

.1825 

2 3-35 

50-99 

•1875 23-99 

52-39 

• 1925 

24.63 53.78 

• 1975 

25.27J 

55 -18 

.1826 

23-36 

51.02 

. 1S76 

24.00 

52.42 

. 1926 

24.64 53.S1 

.1976 

25 28 

55-21 

.1827 23.37 

5105 

.1877(24.01 

32-44 

.1927 

24.65 

53-84 

.1977 

25.29(55.24 

.1828 

23-39 

51.07 

1S78 

24 03 

52-47 

.1928 

24.66 

53-87 

.1978 

25-30 

55-27 

.1829 

23.40 

5 i-io 

•1S79 

24.04 

52.50 

.1929 

24 6S 

53-90 

.1979 

25-32 

55-29 

.1830 23.41 

5 i 13 

.18S0 

24.05 

52.53 

.1930 

24 69 

53-92 

.1980 

25-33 

55-32 

.1831 

23.42 

51.16 

.1881 

24.06 

52.56 

• 1931 

24.70 

53-95 

.1981 

25-34 

55-35 

•1832 1 

23-44 

51-19 

.1882 

24.08 

52.58 

.1932 

24.72 

5398 

.1982 

25-36 

55-38 

•1833 23.45 

5 I- 2 I 

.18S3 

24.09 

52.61 

• 1933 

24-73 

54 01 

• 1983 

25-37 

55-41 

.1S34 23.46 

51-24 

.1884 

24.10 

52.64 

■ 1934 

24-74 

54-04 

• 19S4 

25 38 

55-43 

.1835 23.48 

51-27 

.1885 

24.11 

52.67 

■ 1935 

24-75 

54.06 

.1985 

25-39 

55-46 

.1836 

23 49 

51-30 

.1886 

24-13 

52.69 

•2936 

24-77 

54 -cg 

. 1986 

25.41 

55-49 

•1S37 23.50 

51-33 

.1887 

24.14 

52.72 

• 1937 

24.7S 

54-12 

• 19S7 

25.42 

55-52 

■1S38! 

23-51 

51-35 

.1888 

24-15 

52-75 

.1938 

24.79 

54 15 

. 19SS 

25-43 

55-54 

•1839123.53 

5 I- 3 S 

.1889 

24.17 

52.78 

• 1939 

24.81 

54 -iS 

. 1989 

25-45 

55-57 

.1S40 

23-53 

5 i- 4 i 

. 1890 

24.18 

52.81 

.1940 

2482 

54.20 

.1990 

25-46 

55.60 

.1841 23.55 

51-44 

. 1891 

24.19 

52.83 

.1941 

24-83: 

54-23 

.1991 

25-47 

5563 

.1842 

23 56 

51-47 

.1892 

24.20 

5286 

.1942 

24.84) 

54-26 

.1992 

25.48 

55.66 

.1843 23.58 

51-49 

.1893 

24.22 

52.89 

•1943, 

24.86, 

54 29 

• 1993 

25-50 

55.68 

.1844(23.59 

51-52 

.1894 

24.23 

52.92 

•1 9441 

24.87 

54-32 

.1994 

25-51 

55-71 

.1845 23.60 

51-55 

.1895 

24.24 

52.95 

•1945 

24.88 54.34 

• 1995 

25-52 

55-74 

.1846)23.62 

51.58 

.1S96 

24.26 

52.97 

.1946 

24.9054.37 

.1996 

2 5 - 53 / 

55-77 

.1847 23.63 

51.61 

.1897 

24.27 

53.00 

•1947 24.91 

54-40 

.1997 

25-55 

55-80 

.1848 23.64 

51-63 

. 1898 

24.28 

53-03 

-1 948 1 

24.92 

54-43 

.199S 

25-56 

55-82 

. 1S40'23.65 

51.66 

.1899 

24.29 

53-06 

.1949 

24 - 93 1 

54.46 

.1999 

10 

55-85 

























































Phosphoric Acid Table. 


i7 


C>ramme .2000—.2199. 


Grm. 

% 

% 

Grm. 

% 

# 

Grm. 

% 

% 

Grm. 

% 

% 

O 


6 

O 


O 

cT 


6 

O 


6 

cu 

t 5 ) 

0 

pT 

pS 

tS) 

0 

(C 

P^ 

bio 

O 

pT 

Ph 

tS 

O 

pT 

s 

Ph 

u 

s 


u 

S 

Ph 

u 

§ 

Ph 

CJ 

.2000 

25-59 

55.88 

.2050 

26.23 

57.28 

.2100 

26.87 

58.67 

-2150 

27.50 

60.07 

.2001 

25.60 

55-91 

.2051 

26.24 

57-30 

.2101 

26.88 

58.70 

.2151 

27-52 

60.10 

.2002 

25.61 

55-94 

.2052 

26.25 

57-33 

.2102 

26.S9 

58.73 

.2152 

27-53 

60.13 

.2003 

25.62 

55 96 

.2053 

26.26 

57-36 

.2103 

26.90 

58.76 

•2153 

27-54 

60.15 

.2004 

25-64 

55-99 

.2054 

26.28 

57 39 

2104 

26.92 

58.79 

•2154 

27 56 

60.18 

.2005 

25-65 

56 02 

2055 

26.29 

57-42 

.2105 

26.93 

58 81 

2155 

27-57 

60.21 

.2006 

25 66 

56 05 

.2056 

26.30 

57-44 

.2100 

26.94 

5S.S4 

.2156 

27.58 

60.24 

.2007 

25-68 

56.08 

2057 

26 32 

57-47 

.2107 

26.95 

58.S7 

•2157 

27-59 

60 27 

.2008 

25.69 

56.10 

-205S 

26 33 

57-50 

.2108 

26 97 

58.90 

.2158 

27.61 

60.29 

. 2009 

25.70 

56.13 

.2059 

26.34 

57-53 

.2 rog 

26.9S 

58.93 

•2159 

27 62 

60.32 

.2010 

25-71 

56 16 

2060 

26 35 

57-56 

2IId 

26 qg 

58.95 

.2160 

27.63 

60.35 

.2011 

25-73 

5619 

2061 

26.37 

57-58 

2 I I I 

27.01 

58.98 

.2161 

27 65 

60.38 

.2012 

25-74 

56.22 

.2062 

26.3SI 

57 - 6 i 

.2112 

27.02 

59. 01 

.2162 

27 66 

60.41 

.2013 

25-75 

56.24 

2063 

26.39 

57 64 

.2113 

27.03 

59 °4 

2163 

27.67 

60.43 

.2014 

25-77 

56.27 

.2064 

26 40 

57-67 

.2114 

27.04 

59 °7 

.2164 

27.68 

60.46 

.2015 

25.78 56.30 

.2065 

26.42 

57-70 

.2115 

27.06 

59 09 

.2165 

27.70 

60.49 

.2016 

25-79 

56.33 

.2066 

26.43 

57-72 

.2116 

27 07 

59.12 

.2166 

27.71 

60.52 

.2017 

25.80 

56.35 

56.38 

.2067 

26.44 

57 75 

.2117 

27.08 

59- 1 5 

.2167 

27.72 

60.55 

.2018 

25 82 

.2068 

26.46 

57-78 

.211S 

27 TO 

59 18 

.2168 

27-74 

60 57 

.2OI9 

25.83 56.41 

2069 

26.47 

57 81 

.21x9 

27.II 

59.20 

.2169 

27-75 

60.60 

. 2020 

25.84 56.44 

.2070 

26 48 

57-84 

.2120 

27.12 

59-23 

.2170 

27.76 

60.53 

.2021 

2 = -85 56.47 

.2071 

26.49 

57-86 

.2121 

27.I3 

59.26 

.2171 

27-77 

60.66 

.2022 

25 87 56.49 

2072 

26.51 

57-89 

.2122 

27-'5 

59 29 

.2172 

27.79 

60.69 

.2023 

25 .83 56.52 

.2073 

26.52 

57 92 

.2123 

27.16 

59-32 

•2173 

27 80 

60.71 

2024 

25.89I56.55 

.2074 

26.53 

57-95 

.2124 

27-17 

59 34 

•2174 

27.81 

60.74 

.2025 

25 -Si 

56.58 

• 2075 

26.55 

57 98 

2125 

27.I9 

59-37 

•2175 

27.82 

60.77 

.2026 

25.92 

56 61 

.2076 

26.56 

58.00 

.2126 

27.20 

59-40 

.2176 

27-84 

60.80 

. 2027 

25-93 

56 63 

• 2077 

26.57 

58 03 

.2127 

27.21 

59-43 

2177 

27-85 

60.83 

.2028 

25-94 

56 66 

.207S 

26.58 

58.06 

.2128 

27.22 

59-46 

.2178 

27.86 

60.85 

k . 2029 

25.96 

56.69 

.2079 

26.60 

58.09 

.2129 

27.24 

59-48 

.2179 

27.88 

60.8 S 

.2030 

25-97 

56.72 

.2080 

26.61 

58.12 

2130 

27-25 

59 5 i 

.2x80 

27.89 

60.91 

.203P 

25 9 s 

56.75 

.2081 

26.62 

58.14 

2131 

27.26 

59-54 

.2181 

27.qo 

60.94 

.2032 

26.00 

56.77 

.2082 

26.64 

58.17 

.2132 

27.27 

59-57 

.2182 

27.91 

60.97 

• 2033 

26 01 

56.80 

.2083 

26.65 

58.20 

•2133 

27.29 

59.60 

.2183 

27-93 

60.99 

.2034 

26.02 

56.83 

. 20S4 

26 66 

58.23 

-2134 

27.3O 

59 62 

.2184 

27.94I 

61.02 

• 2035 

26.03 

56.86 

.2085 

26.67 

58.25 

• 2135 

27-31 

59 65 

.2185 

27-95 

61.05 

.2036 

26.05 

56.89 

.2086 

26.69 

58.28 

.2136 

27-33 

59.68 

.2186 

27.97 

61.08 

.2037 

26.06 

56.91 

.2087 

26.70 

58-31 

■2137 

27-34 

59-71 

.2187 

27.98 

61.10 

.2038 1 

26.07 

56.94 

.2088 

26.71 

58.34 

.2138 

27 35 

59-74 

.2188 

27.99 

61.13 

.2039 

26.08 

56.97 

.2089 

26.72 

58.37 

.2139 

27-36 

59-76 

.2189 

28.00 

61.16 

.2040 

26.10 

57-00 

.2090 

26.74 

58.39 

.2140 

27.38 

59-79 

.2190 

28.02 

61.19 

.2041 

26. r 1 

57-03 

.2091 

26.75 

58.42 

.2141 

27-39 

59.82 

.2191 

28.03 

61.22 

.2042 

26.12 

57-05 

.2092 

26.76 

58.45 

.2142 

27.40 

59-85 

.2192 

28.04 

61.24 

.2043 

26.14 

57.08 

.2093 

26.78 

58.48 

.2143 

27.42 

59-88 

.2193 

28 06 

61.27 

.2044 

26.15 

57 -H 

.2094 

26.79 

58.51 

•2144 

27-43 

59.90 

.2x94 

28.07 

61.30 

•2045 

26.16 

57-14 

.2095 

26.80 

58.53 

•2145 

27-44 

59 93 

•2195 

2S.08 

6 i .33 

.2046 

26.17 

57-17 

.2096 

26.81 

58.56 

.2146 

27-45 

59.96 

.2196 

28.09 

61.36 

.2047 

26.19 

57-19 

.2097 

26.83 

^ 8-59 

.2147 

27.47 

59-99 

.2197 

28.11 

61.38 

.2048 

26.20 

57.22 

.2098 

26.84 

58.62 

.2148 

27.48 

60.02 

.2198 

28.12 

61.41 

. 2049 

26.21 

57-25 

.2099 

26.85 

58.65 

.2149 

27.49 

60.04 

.2199 

28.13 

61.44 


0 
































i8 


Phosphoric Acid Table. 


Gramme .2200—.2399. 


Grm. 

q 

s 

% 

q 
p T 

. % 

q 

p 1 

C3 

O 

Grm. 

O 

p w 

M 

2 

q 

% 

q 

pT 

C3 

u 

Grm. 

O 

pT 

s 

% 

q 

pT 

% 

O* 

pT 

rt 

u 

Grm. 

O 

pi' 

bjo 

% ' 

q 

p' 

# 

0 

p' 

rt 

u 

.2200 

28.14 

61.47 

.2250 

28.78 

62.87 

.2300 

29.42 

64.26 

.2350 

30.06 

65.66 

.2201 

28.16 

61.50 

.2251 

28.80 

62.89 

.2301 

29.44 

64.29 

•2351 

30.08 

65.69 

.2202 

28.17 

61.52 

.2252 

28.Si 

62.92 

.2302 

29-45 

64.32 

■2352 

30.09 

65-71 

.2203 

28.18 

61.55 

• 2253 

28.82 

62.95 

.2303 

29.46 

64-35 

•2353 

30.10 

65-74 

.2204 

28.20 

6I.58 

•2254 

2S.S4 

62.98 

.2304 

29.48 

64-37 

•2354 

30.11 

65-77 

.2205 

28.21 

6l.6l 

• 2255 

28. Ss 

63.00 

• 2305 

29.49 

64 40 

•2355 

30.13 

65.80 

.2206 

28.22 

6I.64 

.2256 

28.86 

63-03 

.2306 

29.50 

64-43 

•2356 

30.14 

65-83 

.2207 

28.23 

61.66 

• 2257 

28.87 

63.06 

.2307 

2951 

64.46 

•2357 

30.15 

65.85 

.2208 

28.25 

6I.69 

.225S 

28.89 

63.09 

.2308 

29-53 

64.49 

• 2358 

30.17 

65.88 

.2209 

28.26 

6l. 72 

.2259 

28.90 

63.12 

.2309 

29-54 

64-51 

•2359 

30.18 

65-91 

.2210 

28.27 

6 r .75 

.2260 

28.91 

63.14 

.2310 

29 55 

64-54 

2360 

30.19 

65-94 

.2211 

2S.29 

61.78 

.2261 

28.92 

63-17 

•2311 

29.56 

64-57 

.2361 

30.20 

65-97 

.2212 

28.30 

61.80 

.2262 

^S -94 

63.20 

■2312 

29 58 

64.60 

.2362 

30.22 

65-99 

.2213 

28.31 

61.83 

.2263 

28.95 

63-23 

■ 2313 

29-59 

64 63 

.2363 

30.23 

66.02 

.2214 

28.32 

61.86 

.2264 

28.96 

63.26 

•2314 

29.60 

64.65 

•2364 

30.24 

66.05 

.2215 

28.34 

61.89 

.2265 

28.98 

63.2s 

•2315 

29.62 

64.68 

■2365 

30.26 

66.08 

. 2216 

28.35 

61.92 

.2266 

28.99 

63-31 

.2316 

29.63 

64.71 

.2366 

30.27 

66.11 

.2217 

28.36 

61.94 

.2267 

29.00 

63-34 

• 2317 

29.64 

64-74 

.2367 

30.28 

66.13 

.2218 

28.37 

61.97 

.2268 

29.01 

63-37 

.2318 

29.65 

64.76 

.2368 

30-29 

66.16 

.2219 

28.39 

62.00 

.2269 

29.03 

63.40 

.2319 

29-67 

64.79 

.2369 

30.31 

66.19 

.2220 

28.40 

62.03 

.2270 

29.04 

63.42 

.2320 

29.68 

64.82 

.2370 

30.32 

66.22 

.2221 

28.41 

62.05 

.2271 

29.05 

63-45 

.2321 

2q.6q 

64.85 

-2371 

30.33 

66.25 

.2222 

28.43 

62.08 

.2272 

29.07 

63.48 

.2322 

29.71 

64.88 

.2372 

30.34 

66.27 

.2223 

28.44 

62.11 

.2273 

29.08 

63-51 

.2323 

29.72 

64.90 

•2373 

30.36 

66.30 

.2224 

28.45 

62.14 

.2274 

29.09 

63-54 

•2324 

29-73 

64-93 

•2374 

30.37 

66.33 

.2225 

28.46 

62.17 

• 2275 

29.10 

63-56 

•2325 

29.74 

64.96 

•2375 

30.38 

66.36 

.2226 

2S.48 

62.19 

.2276 

29.12 

63-59 

.2326 

29.76 

64.99 

•2376 

30.40 

66.39 

.2227 

28.49 

62.22 

.2277 

29.13 

63.62 

.2327 

29-77 

65 02 

•2377 

30.41 

66.41 

.2228 

28.50 

62.25 

.2278 

29.14 

63 65 

.232s 

29.78 

65.O4 

.2378 

30.42 

66.44 

.2229 

28.52 

62.28 

.2279 

29.16 

63.68 

.2329 

29.79 

65.O7 

•2379 

30.43 

66.47 

.2230 

28.53 

62.31 

.2280 29.17 

63.70 

•2330 

29.81 

65.IO 

.2380 

30-45 

66.50 

.2231 

28.54 

62.33 

.2281 

29.18 

63-73 

•2331 

29.82 

65 -I 3 

.2381 ho.46 

66.53 

.2232 

28.55 

62.36 

.22S2 

29.19 

63.76 

•2332 

29.83 

65.16 

.2382 

30.47 

66.55 

•2233 

28.57 

62 39 

.2283 

29.21 

63-79 

•2333 

29-85 

65.IS 

■2383 

30.49 

66.58 

.2234 

28.58 

62.42 

.22S4 

29.22 

63.81 

•2334 

29.86 

65.21 

.2384 

30.50 

66.61 

■2235 

28.59 

62.45 

.2285, 

29.23 

63.84 

•2335 

2 9 -S 7 , 

65-24 

• 23S5 

30.51 

66.64 

.2236 

28.61 

62.47 

.22S6 

29.24 

63.87 

-2336 

29.88 

65-27 

.2386 

30.52 

66.66 

.2237 

28.62 

62.50 

.22S7 

29.26 

63.90 

■2337 

2Q qo 

65-30 

• 23S7 

30.54 

66.69 

.223s 

28.63 

62.53 

.2288 

2 Q .27 

63-93 

•2338 

29 91 

65.32 

.23SS 

30.55 

66.72 

.2239 

28.64 

62.56 

.2289 

2g.28 

63-95 

•2339 

29.92 

65 35 

•2389 30.56 

66.75 

.2240 

28.66 

62.59 

.2290 

29 30 

63.98 

.2340 

29.94 

65-38 

•239030.58 

66.78 

.2241 

28.67 

62.61 

.2291 

29.3I 

64.01 

• 2341 

29 95 

65 - 4 I 

1 -2391 

30.59 

66 So 

.2242 

28.68 

62.64 

2292 

29.32 

64.04 

• 2342 

29-96 

65.44 

.2392 

30.60 

66.83 

.2243 

28.69 

62.67 

.2293 

29 33 

64 07 

• 2343 

29.97 

65.46 

• 2393 

30.61 

66.86 

•2244 

28.71 

62 70 

.2294 

29-35 

64.09 

■ 2344 

29.99 

65-49 

• 2394 

30.63 

66.89 

.2245 

28.72 

62.73 

.2295 

29.36 

64.12 

•2345 

30 00 

65-52 

•2395 

30.64 

66.92 

.2246 

28.73 

62.75 

.2296 

2 Q -37 

64.15 

2346 

30.01 

65-55 

.2396 30.65 

66.94 

.2247 

28.75 

62.78 

.2297 

29-39 

64.18 

■2347 

50.03 

65.58 

• 2397 

30.66 

66.97 

.2248 

28.76 

62.81 

.2298 

29.4c 

64.21 

.2348 

30 04 

65.60 

.2398 30.68 

67.00 

.2249 

28.77 

62.84 

.2299 

29.41 64.23 

• 2349 

30.05 65 63 

•2399 

30.69 

67.03 








































Potash Conversion Table. 


19 


TABLE II. 

POTASH CONVERSION TABLE. 

The Potash Table is intended to be used in ordinary fer¬ 
tilizer and kainit analyses, where the per cents of K 2 0 
rarely or never run above seven or eight in the former and 
fifteen in the latter. It gives the per cents of K a O from 
weights of K 3 PtCl 6 , from 0.01 per cent, up to 14.00 per cent. 
It is based on the supposition that one gramme of substance 
is taken for the analysis, (or an aliquot corresponding to 
1.0 gramme from a solution of any number of grammes) 
this, in our opinion, being the most convenient amount to 
be taken in substances where the per cents of K 3 0 run as 
low as they do in ordinary commercial fertilizers. 

When the weight of K 3 PtCl 6 has been obtained, look in 
the table, take the weight there given nearest to the weight 
obtained, and the per cent, of K 3 0 will be found opposite. 
In the kainits or other substances having higher per cents of 
K 3 0 , one-half gramme is enough to be taken for the analysis. 
In such cases and in all cases where 0.5 gramme is taken, it 
will be sufficient for all practical purposes to double the per 
cent, read in the table. In case of fertilizers and substances 
with lozv per cents of K 3 0 , and when only 0.5 gramme has 
been taken, it will, of course, be more accurate to double 
the weight of K 2 PtCl B found and then read from the table. 

It will be observed that by moving the decimal point two 
places to the left in the column of per cents, the weight of 
K .,0 from a known weight of K 2 PtCl B may be read. 

The Potash Table is constructed with the factor (0.19308) 
given in the “ Potash Method ” of the “ Report of the Con¬ 
vention of Official Agricultural Chemists, held at Philadel¬ 
phia, Sept. 8th and 9th, 1884.” Although this factor is based 
on atomic weights different from the latest and most accu¬ 
rately determined weights, (e. g. Pt = 197.18, when it is 
really 194.415: see determinations of Seubert, cited in 
“ Constants of Nature,” Part V. 1882, p. 249,) yet, as Dr. 


20 


Potash Conversion Table. 


Jenkins of the Connecticut Experiment Station, the author 
of the method, says, “ for practical purposes the question 
is not what is the actual atomic weight, but what factor will 
give the correct result with the method universally employ¬ 
ed. Fresenius shows from very careful determinations by 
himself and others that K g PtCl ( . X 0.3056 gives the actual 
KC 1 which was used in the control determinations and 
which corresponds to Pt. 197.18. Hence, unless painful pre¬ 
cautions are taken, such as Seubert took to remove Verknis- 
terungs-Wasser which will not go at 100° or 130°, 0.193076 
or 0.19308 would be the most correct factor to use. Vide 
Fresenius Zeitschr. fiir Analyt. Chem. XXI, 1882, p. 234.” 


Potash Tablk. 


2 1 


Gramme .0000—.1554. 


Grm. 

%' 

Grm. 

% 

Grm 

* 

Grm. 

% 

Grm. 

% 

Grm. 

% 

O 


O 


O 


0 


O 


U 


P- 

6 

£ 

6 

£ 

<0 

£ 

O 

£ 

6 


<0 




u 






^/ 



.0005 

.01 

.0264 

• 51 

•0523 

1.01 

.0782 

I. 5 I 

.1041 

2.01 

.1300 

2.51 

.0010 

.02 

.0269 

.52 

.0528 

1.02 

.0787 

1-52 

. 1046 

2.02 

• 1305 

2.52 

.001 6 

■03 

.0275 

• 53 

0534 

1.03 

•0793 

i -53 

.1052 

2.03 

.1311 

2-53 

.0021 

.04 

.0280 

• 54 

•0539 

1.04, 

.0798 

1 54 

1057 

2.04 

.1316 

2-54 

.0026 

.05 

.0285 

■55 

■0544 

1.05 

.0803 

i -55 

.1062 

2.05 

.1321 

2-55 

.0031 

.06 

.0290 

• 56 

•0549 

1.06 

.0S08 

t 56 

1067 

2 06 

.1326 

2 56 

.0036 

.07 

0295 

• 57 

•0554 

1.07 

• 0S13 

1 57 

1072 

2 07 

• 1331 

2 57 

.0041 

.08 

.030 

.58 

• 0559 

1.0S 

0818 

i 58 

1077 

2.0S 

■'336 

2 58 

.0047 

.09 

0306 

• 59 

.0565 

1 09 

0824 

1 59 

• 10^3 

2.09 

• 1342 

2-59 

.0052 

. 10 

0311 

.60 

C570 

1.10 

0S29 

1.60 

. 10S8 

2.10 

•1347 

2 60 

.0057 

.11 

0316 

.61 

■0575 

r 11 

0834 

1.61 

1093 

2.:x 

• 1352 

2 61 

.0062 

.12 

.0321 

.62 

0580 

1.12 

.0839 

1.62 

1098 

2 12 

•357 

2.62 

.0067 

• 13 

.0326 

•63 

■ 0585 

i. '3 

.0844 

1 63 

.1:03 

213 

1302 

2.63 

.0073 

• 14 

•0332 

.64 

•0591 

1.14 

.0S50 

1.64 

1109 

2.14 

.136S 

2.64 

.0078 

• 15 

0337 

•65 

.0596 

115 

•CS55 

1.65 

.1114 

2.15 

••373 

2.65 

.0083 

. 16 

.0342 

.66 

0601 

1. [6 

.0860 

1 66 

1119 

2.16 

•1378 

2.66 

.008 8 

• 17 

0347 

.67 

0606 

1.17 

.0865 

1.67 

1124 

2.17 

■1383 

2.67 

.0093 

.18 

.0352 

.68 

.0611 

1.18 

.0S70 

1.68 

. 1129 

2.18 

.1388 

2.68 

.0098 

.19 

• 0357 

.69 

.0616 

I.I9 

• 0S75 

1.69 

• 1134 

2.19 

■•393 

2 69 

.0104 

.20 

0363 

.70 

.0622 

1.20 

.0881 

I - 7 ° 

.1140 

2.20 

••399 

2.70 

.0109 

.21 

.036s 

• 71 

.0627 

1.2 I 

.0886 

1.71 

.1145 

2.21 

1404 

2.71 

.01:4 

.22 

•0373 

•72 

.0632 

1.22 

.0891 

1.72 

.1150 

2.22 

1409 

2.72 

.0119 

• 23 

.0378 

•73 

.0637 

1.23 

.0896 

1 73 

• 1155 

2.23 

I .1414 

2-73 

.0124 

• 24 

•03S3 

•74 

0642 

I.24 

.0901 

1 74 

.1160 

2 24 

.1419 

2.74 

.0130 

•25 

.03S9 

•75 

.064S 

1-25 

.0907 

i -75 

j .1166 

2.25 

.1425 

2-75 

•0135 

.26 

0394 

.76 

•0653 

I 26 

.0912 

1.76 

■ TI 7 i 

2.26 

•430 

2.76 

.0140 

• 27 

•0399 

•77 

.065S 

1.27 

.0917 

1 77 

1176 

2.27 

■1435 

2 77 

0145 

.28 

.0404 

.78 

.0663 

1.28 

.0922 

1.78 

.1181 

2.28 

.1440 

2.78 

.0150 

.29 

.0409 

•79 

.0668 

I.29 

.0927 

1.79 

.1186 

2 29 

•1445 

2.79 

• 0155 

• 30 

.0414 

.80 

.0673 

I.30 

.0932 

j So 

• 1J 9 T 

2.30 

.1450 

2.80 

.0161 

• 31 

.0420 

.81 

.0679 

1-31 

.0938 

1.81 

.1197 

2.31 

• 1456 

2.81 

.0166 

•32 

.0425 

.82 

.06S4 

1.32 

•0943 

1.82 

. 1202 

2.32 

. 1461 

2.82 

.0171 

•33 

.0430 

.83 

.0689 

i -33 

.0948 

1.83 

.1207 

2 33 

.1466 

2.83 

.0176 

•34 

•0435 

.84 

.0694 

1 34 

• 0953 

1.84 

.1212 

2-34 

.1471 

2.84 

.0181 

•35 

.0440 

.85 

.o6gg 

i -35 

,095s 

1.85 

.1217 

2-35 

.1476 

2.85 

.0186 

•36 

•0445 

.86 

.0704 

1.36 

.0963 

1.86 

.1222 

2.36 

.1481 

2.86 

.0192 

•37 

.0451 

• 87 

.0710 

i -37 

,oq6q 

1.87 

1228 

2-37 

.1487 

2.S7 

.0197 

.33 

.0456 

.88 

•0715 

r.38 

.0974 

1.88 

•1233 

2.38 

• T 49 2 

2 88 

.0202 

■39 

.0461 

.89 

.0720 

i -39 

.0979 

1.89 

.123S 

2-39 

•1497 

2.S9 

.0207 

.40 

.0466 

.90 

.0725 

1.40 

.0984 

1 90 

• 1243 

2.40 

.1502 

2.90 

.0212 

.41 

.0471 

.91 

.0730 

x.41 

.0989 

1.91 

.1248 

2.4X 

•1507 

2.91 

.0218 

.42 

.0477 

.92 

.0736 

1.42 

• 0995 

1.92 

• 1254 

2.42 

• 1513 

2.92 

.0223 

•43 

.0482 

•93 

.0741 

i -43 

.1000 

i -93 

• 1259 

2-43 

.1518 

2-93 

.0228 

■44 

.0487 

•94 

.6746 

1.44 

.1005 

1 94 

.126/ 

2.44 

• 1523 

2.94 

.0233 

■45 

.0492 

•95 

.0751 

i -45 

. 1010 

i -95 

.1269 

2-45 

. 152S 

2-95 

.0238 

.46 

.0497 

.96 

.0756 

1.46 

.1015 

1.96 

.1274 

2.46 

•1532 

2.96 

.0243 

•47 

.0502 

•97 

.0761 

1.47 

. I 02 C 

1.97 

■127c 

2.47 

• •538 

2.97 

.0249 

.48 

.050S 

.98 

.0767 

1.48 

.1026 

1.98 

.1285 

2.48 

• 1544 

2.98 

.0254 

.49 

•051: 

•99 

.0772 

1.49 

. 1021 

1.99 

.129c 

2.49 

•I 54 C 

2.99 

.0259 

•50 

.051S 

1.00 

• 0777 

1.50 

.1036 

2.00 

• 1295 

2.50 

• 1554 

3.00 















































22 


Potash Table. 


Gramme .1555—3108. 


Grm. 

% 

Grm. 

% 

Grm. 

% 

Grm. 

% 

Grm. 

% 

Grm. 


O 


U 


U 


CJ 


U 


a 


pH 

6 

Ph 

6 

pH 

6 

Ph 

0 

pH 

o 

pH 




2 

2 


2 

2 


2 

2 



•1559 

3.01 

.1818 

3 - 5 i 

.2077 

4.01 

.2336 

4.51 

•2595 

5 or 

.2854 

5 - 5 i 

• 1564 

3.02 

.1823 

3-52 

.2082 

4 02 

•2341 

452 

.2600 

5.02 

.2859 

5-52 

• 157 ° 

303 

.1829 

3-53 

.2088 

4 03 

•2347 

4 53 

.2606 

5-03 

.2865 

5-53 

•1575 

304 

.1834 

3-54 

.2093 

4 04 

•2352 

4-54 

.2611 

5 04 

.2870 

5-54 

.1580 

3-05 

.1839 

3-55 

.2098 

405 

•2357 

4-53 

.2616 

5-05 

.2S75 

5-55 

• 1585 

3.06 

.1844 

3-56 

.2103 

4.06 

.2362 

4.56 

.2621 

5.06 

.2880 

5-56 

• 159 ° 

3-07 

.1849 

3-57 

.2108 

4.07 

.2367 

4-57 

.2626 

5-07 

.2885 

5-57 

•1595 

3.08 

■ 1854 

3.58 

.2113 

4.08 

.2372 

4-58 

.2631 

5.08 

.2890 

5-58 

. 1601 

3 09 

. i860 

3-59 

.2119 

4.09 

.2378 

4-59 

.2637 

5 -og 

.2896 

5-59 

. r6o6 

3.10 

.1865 

3.60 

.2124 

4.10 

•2383 

4 60 

.2642 

5.10 

.2901 

5.60 

. 1611 

3 -ii 

1870 

3.61 

.2129 

4.11 

.2 3 ss 

4.61 

.2647 

5 - 11 

.2906 

5 61 

.1616 

3.12 

■ 1875 

3.62 

.2134 

412 

•2393 

4.62 

.2652 

5-12 

.2911 

5.62 

.1621 

3-13 

.1880 

3- 6 3 

.2139 

413 

.2398 

4-63 

.2657 

5 -i 3 

.2916 

5.63 

.1627 

3-14 

.1886 

3-64 

• 2145 

414 

.2404 

4.64 

.2663 

5-14 

.2922 

5-64 

.1632 

3 i 5 

. 1891 

3-65 

.2150 

415 

2409 

4.65 

.266s 

5 -i 5 

.2927 

5-65 

.1637 

316 

.1896 

3.66 

•2155 

4.16 

2414 

4.66 

.2673 

5.16 

.2932 

5.66 

.1642 

3-17 

. 1901 

3-67 

.2160 

417 

.2419 

4.67 

.2678 

5 -i 7 

.2937 

5-67 

.1647 

3.18 

. 1906 

3.6S 

.2165 

4.18 

.2424 

4.68 

.2683 

5-18 

.2942 

5.68 

.1652 

3 i 9 

1911 

3-69 

.2170 

419 

.2429 

4.69 

.2688 

5-19 

• 2947 

5-69 

.1658 

3.20 

■ ig T 7 

3-70 

.2176 

4.20 

•2435 

4.70 

.2694 

5.20 

• 2953 

5-70 

.1663 

3 21 

. 1922 

3 - 7 i 

.2181 

4.21 

•2440 

4-71 

.2699 

5-21 

.2958 

5 7 i 

.1668 

3 22 

.1927 

3-72 

.2186 

4.22 

•2445 

4.72 

.2704 

5.22 

.2963 

5-72 

.[673 

3-23 

.1932 

3-73 

2191 

423 

.2450 

4-73 

.2709 

5-23 

.2968 

5-73 

.1678 

3-24 

• 1937 

3 74 

.2196 

4 24 

•2455 

4-74 

2714 

5-24 

• 2973 

5-74 

. 1684 

3' 2 5 

• 1943 

3-75 

.2202 

4 25 

.2461 

4 75 

.2720 

5-25 

.2979 

5-75 

. 1689 

3 26 

,194s 

3 76 

.2207 

4.26 

.2466 

4.76 

.2725 

5.26 

.2984 

5.76 

• 1694 

3-27 

• 1953 

3-77 

.2212 

4 27 

.2471 

4-77 

.2730 

5-27 

.2989 

5-77 

.1699 

3 28 

.1958 

3-78 

2217 

4.28 

.2476 

4.78 

•2735 

5.2S 

.2994 

5-78 

.1704 

3-29 

.1963 

3-79 

2222 

4.29 

. 2481 

4-79 

.2740 

529 

•2999 

5-79 

.1709 

3 - 3 ° 

. 1968 

3.80 

2227 

4 30 

•2486 

4.80 

.2745 

5-30 

.3004 

5.80 

• 1715 

3 - 3 i 

• 1974 

3 81 

.2233 

4 - 3 i 

.2492 

4.Si 

•2751 

5-31 

.3010 

5.81 

.1720 

332 

r 979 

3.82 

2238 

4 32 

2497 

4.82 

.2756 

5-32 

.3015 

5.82 

• 1725 

3-33 

■1984 

3 83 

.2243 

4-33 

.2502 

4 s 3 

.2761 

5 33 

.3020 

5-83 

.1730 

3 34 

.1989 

3 84 

. 2248 

4-34 

.2507 

4 84 

.2766 

5-34 

.3025 

5-84 

• 1735 

3-35 

■1994 

3-85 

■ 2253 

4-35 

.2512 

4.85 

.2771 

5-35 

.3030 

5-85 

.1740 

336 

.1999 

3-86 

.2258 

4 36 

•2517 

4.86 

.2776 

5-36 

■3035 

5.86 

.1746 

3 37 

.2005 

3 -S 7 

.2264 

4 37 

•2523 

4.87 

.2782 

5-37 

•3041 

5.S7 

.1751 

3-38 

.2010 

3-88 

.2269 

4 38 

.2528 

4 SS 

.2787 

5 38 

.3046 

5-SS 

•1756 

3 39 

.2015 

389 

.2274 

4-39 

•2533 

4.89 

.2792 

5 39 

• 3051 

5-89 

.1761 

3 40 

.2020 

3 9 ° 

.227* 

4 40 

•2538 

4 9 ° 

.2797 

5-40 

.3056 

5 - 9 ° 

.1766 

3-41 

.2025 

34 1 

.2284 

4-41 

•2543 

4 - 9 1 

.2802 

5-41 

.3061 

5-91 

.1772 

342 

.2031 

3 - 9 2 

.2290 

4 42 

•2549 

4.92 

.280s 

5^42 

.3067 

5 - 9 2 

• 1777 

3 43 

.2036 

3-93 

.2295 

4 43 

•2554 

4-93 

.2813 

5-43 

.3072 

5-93 

.1782 

344 

.2041 

3-94 

.2300 

4^44 

•2559 

4-94 

.2818 

5-44 

• 3077 

5-94 

.1787 

345 

. 2046 

3-95 

.2305 

4-45 

.2564 

4-95 

.2823 

5-45 

.3082 

5-95 

.1792 

346 

.2051 

3 96 

.2310 

4.46 

.2569 

4 9 6 

.2828 

5 - 4 6 

.3087 

5 - 9 6 

• 1797 

3 47 

• 2056 

3-97 

•2315 

4-47 

1 -2574 

4-97 

.2833 

5 47 

.3092 

5-97 

.1803 

348 

.2062 

3 - 9 s 

.2321 

4 48 

•2580 

4.98 

.2839 

5 - 4 S 

•3098 

5 - 9 8 

.1808 

349 

.2067 

3 99 

.2326 

4 49 

.2585 

4-99 

.2S44 

5-49 

.3103 

5-99 

. 1S13 

3-50 

■ 2072 

4 00 

• 2331 

4-50 

B -2590 

5.00 

.2S49 

5-50 

.3108 

6.00 













































Potash Table. 


23 


Gramme .3109—.4662. 


Grm. 

% 

Grm. 

% 

Grm. 

% 

Grm. 

% 

Grm. 

% 

Grm. 

% 

t J 


O 


G 


O 


G 


G 


£ 

6 

£ 

6 


6 

£ 

6 

Oh 

O 

Ph 

O 

2 




2 

K / 


2 

k/J 


14 

2 

.3^3 

6.01 

•3372 

6 51 

•3631 

7.01 

.3890 

7 - 5 i 

.4149 

8.01 

.4408 

8.51 

.3118 

6.02 

• 3377 

6.52 

.3636 

7.02 

• 3895 

7-52 

•4154 

8.02 

•4413 

8.52 

■3124 

6.03 

•3383 

6-53 

.3642 

7-03 

.3901 

7-53 

4160 

8.03 

.4419 

8.53 

.3129 

6.04 

.3388 

6-54 

•3647 

7.04 

• 39°6 

7-54 

•4165 

8.04 

.4424 

8.54 

•3134 

6.05 

• 3393 

6-55 

.3652 

7-05 

• 39 ” 

7-55 

.4170 

S.05 

.4429 

8.55 

•3139 

6.06 

•3398 

6.56 

•3657 

7.06 

.3916 

7-56 

•4175 

8.06 

■4434 

8.56 

■3144 

6.07 

■ 34°3 

6 . 5-7 

.3662 

7.07 

.3921 

7-57 

.4180 

8.07 

•4439 

8.57 

•3149 

6.08 

.3408 

6 58 

.3667 

7.08 

.3926 

7 - 5 S 

.4185 

8.08 

•4444 

8.5s 

• 3155 

6 09 

• 3414 

£>•59 

.3673 

7.09 

• 3932 

7-59 

•419! 

8.09 

•4450 

s.59 

.3160 

6. io 

•3419 

6.60 

.3678 

7.10 

•3937 

7.60 

.4196 

S. 10 

•4455 

8.60 

■ 3 it >5 

6.11 

•3424 

6.61 

.36S3 

7 - 11 

•3942 

7.61 

.4201 

8.11 

.4460 

8.61 

• 3170 

6.12 

•3429 

6.62 

.3688 

7. 12 | 

•3947 

7.62 

.4206 

8.12 

•4465 

8.62 

•3175 

6.13 

•3434 

6.63 

• 3 6 93 

7-'3 

•3952 

7-63 

.4211 

8.13 

.4470 

8.63 

.3181 

6.14 

• 344 ° 

6.64' 

o £>99 

7-'4 

■3958 

7.64 

.4217 

8 14 

.4476 

8.64 

.3186 

6.15 

• 3445 

6.65 

3704 

7-'5 

■ 39 6 3 

7-65 

.4222 

8.15 

.4481 

8.65 

• 3 ' 9 ' 

6.16 

• 3450 

6.66 

•3709 

7.16 

.3968 

7.66 

.4227 

8.16 

.4486 

S.66 

.3196 

6.17 

•3455 

6.67 

• 37'4 

7-'7 

•3973 

7-£>7 

.4232 

8.17 

■ 449 1 

8.67 

.3201 

6.18 

.3460 

6.68 

•3719 

7.18 

•3978 

7.68 

•4237 

8.18 

.4496 

S.6S 

.3206 

6.19 

•3465 

6.69 

•3724 

7.19 

•3983 

7.69 

.4242 

8.19 

•4501 

8.69 

.3212 

6.20 

• 3471 

6.70 

•3730 

7.20 

•3989 

7.70 

.4248 

8.20 

•4507 

8.70 

.3217 

6.21 

•3476 

6.71 

•3735 

7.21 

•3994 

7 - 7 i 

•4253 

8.21 

• 4512 

8.71 

.3222 

6.22 

• 348 i 

6.72 

• 3740 

7.22 

•3999 

7.72 

• 4258 

8.22 

• 45 1 7 

8.72 

.3227 

6.23 

.3486 

6-73 

•3745 

7-23 

.4004 

7-73 

.4263 

8.23 

• 4522 

8-73 

.3232 

6.24 

• 349 ' 

6.74 

•3750 

7.24 

.4009 

7-74 

.4268 

8.24 

•4527 

S.74 

•3238 

6 25 

•3497 

6-75 

• 375 £> 

7 25 

.4015 

7-75 

4274 

8.25 

• 4533 

8-75 

•3243 

6.26 

•3502 

6.76 

.3761 

7.26 

.4020 

7.76 

•4279 

8.26 

■ 453 S 

8.76 

.3248 

6.27 

• 3507 

6.77 

.3766 

7.27 

.4025 

7-77 

.4284 

8.27 

• 4543 

8-77 

•3253 

6.28 

• 3512 

6.78 

■ 377 ' 

7.28 

.4030 

7.78 

.4289 

8.28 

• 4548 

8.78 

.3258 

6.29 

•3517 

6.79 

■3776 

7.29 

•4035 

7-79 

.4294 

8.29 

• 4553 

8.79 

.3263 

6.30 

•3522 

6.80 

• 378 i 

1 - 3 ° 

.4040 

7.80 

.4299 

8.30 

.4558 

8.80 

.3269 

6.31 

• 3528 

6.81 

■ 3787 

7 - 3 ' 

.4046 

7.81 

■4305 

8.31 

•4564 

8.81 

•3274 

6.32 

•3533 

6.82 

• 3792 

7-32 

l-4051 

.7.82 

•4310 

8.32 

■4569 

8.82 

•3279 

6-33 

• 353 S 

6.83 

• 37 )7 

7-33 

•4056 

7-83 

■4315 

8-33 

• 4574 

8.S3 

.3284 

6-34 

■3543 

6.84 

.3S02 

7-34 

.4061 

7.84 

.4320 

8-34 

• 4579 

8.S4 

.3289 

6-35 

3548 

6.85 

.3807 

7-35 

.4066 

7-85 

• 4325 

8-35 

.4584 

8.85 

■3294 

6.36 

•3553 

6.86 

.3812 

7-36 

.4071 

7.86 

•4330 

8.30 

• 45 Sg 

8.86 

• 3300 

6-37 

■3559 

6.87 

.3S1S 

7-37 

.4077 

7.87 

• 4336 

S -37 

■4595 

8.S7 

■3305 

6.38 

.3564 

6.88 

• 3S23 

7-38 

.4082 

7.88 

•4341 

8.38 

.460c 

8.88 

•3310 

6-39 

•3569 

6.89 

.3828 

7-39 

.40S7 

7.89 

• 434 t 

8-39 

.4605 

8.89 

-3315 

6 40 

•3574 

6.90 

•3833 

7 40 

4092 

7.90 

• 4351 

8.40 

.461c 

8.go 

• 332 C 

6.41 

■3579 

6.91 

•3838 

7.41 

.4097 

7 - 9 1 

• 435 f 

8.41 

.4615 

8.91 

.3326 

6.42 

.3585 

6.92 

•3844 

7.42 

■4103 

7.92 

.436c 

8.42 

.4621 

8.92 

• 333 i 

6-43 

■ 359 C 

6.93 

•3849 

7-43 

.4108 

7-93 

•4367 

8-43 

.462 (: 

8-93 

333 ^ 

6.44 

• 359 - 

6.94 

•3854 

7-44 

• 4”2 

7-94 

■ 437 : 

8-44 

.4631 

8.94 

■ 334 i 

6-45 

• 36 ' 11 

6.95 

•385c 

7-45 

.4118 

7-95 

•4377 

8-45 

■ 4 £> 3 £ 

8.95 

■ 334 C 

6.46 

.360? 

6.96 

.386. 

7.46 

•4123 

7.96 

.43S: 

8.46 

.464 

8.96 

■3353 

6.47 

.361c 

6.97 

• 3S6c 

7-47 

.4128 

7-97 

• 438 ' 

8.47 

■ 464 £ 

8.97 

• 335 ; 

6.48 

• 36i( 

6.98 

•387; 

7.48 

• 4134 

7.98 

■ 439 : 

8.48 

.465: 

8.98 

• 33 fo 

6.49 

.362 

6.99 

• 388 c 

7.49 

■ 4 i 3 c 

7-99 

• 439 ' 

8.49 

• 465 ‘ 

8.99 

.336' 

6.50 

.362 

7.00 

.388 

7 - 5 ° 

8 -414- 

8.00 

■ 44 o; 

8.50 

.466: 

9.00 



















































24 


Potash Table. 


Gramme .4663—.6216. 


Grm. 

% 

Grm 

% 

Grm. 

% 

Grm. 

% 

Grm. 

% 

Grm. 


O 


U 


□ 


u 


U 


U 


£ 

O 

£ 

6 

2- 

O 

£ 

6 

£ 

6 

£ 

O 


'2 

ui 

« 

0 





K / 

K / 

K/J 

.4667 

9.01 

.4926 

9 - 5 i 

5185 

10.01 

• 5444 

10.51 

•5703 

11.01 

.5962 

11.51 

.4672 

9.02 

■4931 

9-52 

.5190 

10.02 

5449 

10.52 

.5708 

11.02 

• 5967 

n.52 

.467S 

9 °3 

•4937 

9 53 

.5196 

10.03 

•5455 

10.53 

• 57 M 

11.03 

•5973 

”•53 

.4683 

9-°4 

•4942 

9-54 

.5201 

10 04 

.5460 

10.54 

■ 5719 

11.04 

•5978 

”■54 

.46S8 

g .°5 

4947 

9 55 

.5206 

10.05 

•5465 

10.55 

• 5724 

11 05 

•5983 

”•55 

• 4693 

9.06 

•4952 

9-56 

.5211 

10.06 

■5470 

to 56 

•5729 

11 06 

5988 

11.56 

.4698 

9 °7 

• 4957 

9 57 

.5216 

:o 07 

•5475 

10.57 

•5734 

11.07 

•5993 

”•57 

■4703 

9.08 

.4962 

9.58 

.5221 

10.08 

• 548 o 

10.58 

•5739 

11.08 

•5998 

11 58 

• 470 Q 

9 °9 

.4968 

9-59 

•5227 

10.09 

54 S 6 

10 59 

•5745 

11 09 

.6004 

”59 

• 47 M 

9 IU 

• 4973 

9.60 

•5232 

10.10 

• 549 1 

10.60 

•5750 

II 10 

. 6009 

11 60 

•4719 

9 ” 

.4978 

9.6r 

•5237 

to. 11 

■ 549 ^ 

10.61 

■5755 

11 11 

.6014 

11 61 

.4724 

9.12 

4983 

9.62 

.5242 

to.12 

•5501 

10.62 

576 o 

11.12 

.6019 

11.62 

.4729 

9 !3 

,4gS8 

9-63 

•5247 

10.13 

•5506 

10.63 

5765 

11 13 

6024 

11 63 

•4735 

9 14 

■4994 

9 64 

•5253 

10.14 

• 5512 

10.64 

• 577 ' 

11 14 

.6030 

11.64 

.4740 

9 ' 5 

•4999 

9 65 

•5258 

10.15 

•5517 

10 65 

■5776 

”15 

6035 

11 65 

•4745 

9 16 

.5004 

9.66 

5263 

10.16 

■5522 

10.66 

57 Si 

11.16 

.604U 

11 66 

•4750 

9 17 

.5009 

9.67 

.5268 

10.17 

•5527 

10.67 

.5786 

11 17 

6045 

11.67 

■4755 

9 iS 

5014 

9 68 

•5273 

10 18 

■5532 

ro.68 

•5791 

11.18 

.6050 

11.68 

.4760 

9.19 

■5019 

9.69 

•5278 

10.19 

• 5537 

10.69 

•5796 

11 19 

6 o 55 

11.69 

.4706 

9 20 

•5025 

9 7 ° 

5284 

10.20 

• 5543 

10.70 

.5802 

11.20 

6061 

11.70 

• 477 i 

9 21 

5030 

9.71 

.5289 

IO 21 

5548 

10.71 

•5807 

11.21 

6066 

11.71 

.4776 

9.22 

■5035 

9.72 

•5294 

10.22 

• 5553 

to 72 

.5812 

11.22 

.6071 

11.72 

• 478 i 

9 23 

.5040 

9 73 

.5299 

10.23 

•5558 

to 73 

5817 

11.23 

.6076 

”•73 

.J7S6 

9 24 

•5045 

9 74 

■5304 

10.24 

•5563 

to. 74 

.5822 

11 24 

.6081 

11.74 

.4792 

9 25 

•5051 

9 75 

•5310 

IO 25 

5569 

10.75 

.582S 

11 25 

.6087 

”•75 

• 4797 

9.26 

.5056 

9 76 

•5315 

10.26 

•5574 

10.76 

•5833 

11.26 

.6092 

11.76 

.4S02 

9.27 

. 5061 

9 77 

.5320 

IO 27 

■5579 

1077 

.5838 

11 27 

6097 

11.77 

.4807 

9.28 

. 5066 

9.78 

•5325 

10.28 

5584 

10.78 

•5843 

11.28 

.6102 

11.78 

.4812 

9.29 

5071 

9 79 

•5330 

to 29 

•5589 

10 79 

.5848 

11.29 

.6107 

11.79 

.4817 

9-30 

.5076 

9 80 

•5335 

10.30 

•5594 

10 80 

•5853 

11.30 

.6112 

11.80 

.4823 

9 3 i 

.5082 

g.81 

•5341 

IO.3I 

.5600 

10.81 

.5850 

IT 31 

.6118 

11.Si 

.4828 

9-32 

.50S7 

9.82 

•5346 

IO.32 

•5605 

10 82 

•5S64 

11.32 

.6123 

11.82 

•4833 

9-33 

.5092 

9 S3 

535 i 

10.33 

.5610 

10 S3 

.5860 

” 33 

.6128 

11-83 

.4838 

9 34 

■5097 

9 84 

• 5356 

IO.34 

• 56 i 5 

10.84 

■5874 

”34 

6133 

11.84 

•4843 

9-35 

.5102 

9-85 

• 536 r 

to .35 

.5620 

10.85 

•5879 

11-35 

.613S 

11.85 

.4848 

9-36 

.5107 

9 86 

•5366 

10.36 

5625 

io 86 

■ 5884 

11.36 

6143 

11.S6 

•4854 

9 37 

■ 5”3 

9.87 

5372 

10.37 

.5631 

to.87 

.5890 

”•37 

6149 

11.87 

•4859 

9-38 

5”8 

9.88 

•5377 

to 38 

•5636 

10.S8 

•5895 

11.38 

6154 

11.88 

•4864 

9 39 

•5123 

9 89 

5382 

to 39 

.5641 

10 89 

.5900 

”•39 

.6159 

11.89 

.4S69 

9 40 

• 5128 

9.90 

•5387 

10.40 

.5646 

10.90 

• 5905 

11.40 

.6164 

11.90 

• 4874 

9 4 i 

•5133 

9 91 

•5392 

to 41 

5651 

10.91 

• 59 ro 

11.41 

.6169 

11.91 

.4880 

9 42 

• 5139 

9 92 

• 539 s 

10.42 

5657 

10.92 

.5916 

ir 42 

.6175 

11.92 

•4885 

9-43 

• 5 M 4 

9-93 

•5403 

10.43 

.5662 

10.93 

•5921 

”•43 

.6180 

”•93 

.4S90 

9 44 

•5149 

9 94 

.5408 

10.44 

.5667 

10.94 

•5926 

11.44 

.6185 

11.94 

■4895 

9 45 

• 5154 

9 95 

•5413 

10.45 

• 5672 

10.95 

•5931 

”•45 

.6190 

”•95 

.4900 

9.46 

•5159 

9.96 

• 54 i 8 

10.46 

•5677 

10.96 

■5936 

11.46 

.6195 

11.96 

• 49°5 

9-47 

.5164 

9-97 

■5423 

to 47 

.5682 

10.97 

•5941 

11.47 

.6200 

11.97 

• 49 ” 

9.48 

• 5170 

9 98 

•5429 

10.48 

.5688 

10.98 

• 5947 

11.48 

•6206 

11.98 

.4916 

9-49 

•5175 

9.99 

■5434 

10.49 

•5693 

10.99 

•5952 

”49 

.6211 

11.99 

.4921 

9-50 

.5180 

10.00 

■5439 

10.50 

.5698 

ri.oo 

•5957 

11.50 

.6216 

12.00 


































Potash Table. 


25 


Gramme .6217—.7770. 


Grm. 

cf 

A 

j Grm. 

% 

Grm. 

* 

I Grm. 

% 

Grm. 

% 

■ Grm. 

* 

O 


U 


U 

. 

5 


□ 


G 


£ 

6 

C , 

6 

CM 

O 

Pm 

6 

£ 

6 

Pm 

O 



1 *4 


K / 




K / 

« 



.6221 

12.01 

j .64 So 

12.51 

6739 

13.01 

.6998 

13 5 i 

• 7257 

14.01 

7516 

14.51 

.6226 

12.02 

.6485 

12.52 

.6744 

13.02 

.7003 

13-52 

.7262 

14.02 

•7521 

14.52 

.6232 

12.03 

.6491 

12.53 

.6750 

13-03 

.7OO9 

13-53 

.7268 

14-03 

■7527 

14.53 

.6237 

12.04 

.64q6 

12.54 

•6755 

13-04 

.7014 

13-54 

■7273 

14.04 

•7532 

14.54 

.6242 

12.05 

.6501 

12.55 

.bjbo 

1305 

.7CI9 

13-55 

.7278 

14-05 

• 7537 

14.55 

.6247 

12.06 

.6506 

12.56 

.6765 

13x6 

|-7024 

13-56 

.7283 

14.06 

■7542 

1456 

.6252 

12.07 

.6511 

12.57 

.6770 

13-07 

.7029 

13-57 

.7288 

14.07 

•7547 

14.57 

.6257 

12.08 

.6516 

12.58 

•6775 

13.08 

•7034 

13-58 

• 7293 

14.oS 

•7552 

14.58 

.6263 

12.09 

.6522 

12.59 

.6781 

13.09 

.7040 

13-59 

•7299 

14-09 

.7558 

14.59 

.626S 

12.10 

■6527 

12.60 

.67S6 

13.10 

•7045 

13.60 

.7304 

14.10 

•7563 

14.6c 

.6273 

12.11 

.6532 

12.61 

.6791 

13-11 

•7050 

13.61 

■ 7309 

14.11 

.7568 

14.61 

.627S 

12.12 

•6537 

12.62 

.6796 

13.12 

•7055 

13 62 

•7314 

14.12 

G 573 

14.62 

.6283 

12.13 

.6542 

12 63 

.6801 

1313 

.7060 

13-63 

•7319 

1413 

•7578 

14.63 

.62S9 

12.14 

.654S 

12.64 

.6807 

I 3 .I 4 

.7066 

13-64 

■ 7325 

14.14 

•7584 

14.64 

.6294 

12.15 

• 6553 

12.65 

.6812 

I 3 .I 5 

.7071 

13-65 

•7330 

14-15 

•7589 

14-65 

.6299 

12.16 

• 6558 

12.66 

.6817 

13.16 

.7076 

13.66 

■7335 

14.16 

•7594 

14.66 

.6304 

12.17 

•6563 

12.67 

.6822 

1 3 - 1 7 

1 .7081 

13-67 

.7340 

14.17 

•7599 

14.67 

.6309 

12.iS 

.6568 

12.68 

.6827 

i 3 - lS 

.7086 

13.68 

•7345 

14. iS 

.7604 

14.6S 

• 6314 

12.19 

•6573 

12.69 

.6832 

1319 

•7091 

13.69 

•7350 

14.19 

.7609 

14.69 

.6320 

12 20 

•6579 

12.70 

.6838 

13.20 

7097 

13.70 

•7356 

14.20 

•7615 

14.70 

•6325 

12.21 

.6584 

12.71 

.6843 

13.21 

.7102 

I 3 . 7 I 

• 736 i 

14.21 

.7620 

14.71 

.6330 

12.22 

.6589 

12.72 

.6848 

13.22 

.7107 

13.72 

.7366 

14.22 

.7625 

14.72 

• 6335 

12.23 

6594 

12.73 

•6853 

13-23 

. 7 H 2 

13-73 

•7371 

14.23 

.7630 

14-73 

.6340 

12.24 

.6599 

12.74 

.6858 

13-24 

• 7117 

13-74 

.7376 

14.24 

■7635 

14.74 

.6346 

12.25 

6605 

12.75 

.6864 

13-25 

• 7123 

13-75 

.7382 

14.25 

.7641 

14-75 

• 6351 

12.26 

.6610 

12.76 

.6869 

13.26 

.7128 

13-76 

• 7.387 

14 26 

• 7646 

14.76 

• 6356 

12.27 

.6615 

12.77 

.6874 

13.27 

• 7133 

13-77 

•7392 

14.27 

■7651 

14-77 

.6361 

12.28 

.6620 

12.78 

.6879 

13.28 

• 7138 

13-78 

•7397 

14.28 

.7656 

14.78 

.6366 

12.29 

.6625 

12.79 

.6S84 

13.29 

• 7143 

13-79 

■7402 

14.29 

.7661 

14.79 

• 6371 

12.30 

.6630 

12.80 

.6S89 

13 30 

.7148 

13.80 

•7407 

14.30 

.7666 

14.80 

.6377 

12.31 

.6636 

12.81 

.6895 

I 3 - 3 I 

• 7154 

13.81 

•7413 

14.31 

.7672 

14.81 

.63S2 

12.32 

.6641 

12.82 

.6900 

13-32 

■ 7159 

13.82 

.7418 

14.32 

•7677 

14.82 

.63S7 

12.33 

.6646 

12.83 

.6905 

13 33 

.7164 

13-83 

•7423 

14.33 

.7682 

14-83 

.6392 

12.34 

.6651 

12.84 

.6910 

I 3.34 

.7169 

13.84 

•7428 

14.34 

.7687 

14.84 

• 6397 

12.35 

.6656 

12.85 

■6915 

13-35 

• 7174 

13-85 

•7433 

14.35 

.7692 

14.85 

.6402 

12.36 

.6661 

12.86 

.6920 

13-36 

• 7179 

13.86 

• 7438 

14.30 

.7697 

14.86 

.6408 

12.37 

.6667 

12.87 

6926 

13-37 

• 7185 

13-87 

•7444 

14 37 

•7703 

I 4-87 

.6413 

12.38 

.6672 

12.88 

.6931 

13 38 

.7190 

13-88 

.7449 14-38 

.7708 

14.ss 

.641S 

12.39 

.6677 

12.89 

.6936 

13-39 

• 7195 

13.89 

•7454 

14-39 

•7713 

14.89 

.6423 

12.40 

.66S2 

12.90 

.6941 

1340 

.7200 

13.90 

•7459 

14.40 

.7718 

14.90 

.6428 

12.41 

.6687 

12.91 

.6946 

I 3 - 4 I 

• 7205 

13-91 

.7464 

14.41 

•7723 

14.91 

•6434 

12.42 

.6693 

12.92 

.6952 

13-42 

.7211 

13.92 

•7470 

14.42 

.7729 

14.92 

•6439 

12.43 

.6698 

12.93 

•6957 

13-43 

.7216 

13-93 

•7475 

14-43 

• 7734 

14-93 

.6444 

12.44 

.6703 

12.94 

.6962 

13-44 

.7221 

13-94 

.7480 

14.44 

•7739 

14.94 

.6449 

12.45 

6708 

12.95 

.6967 

13-45 

.7226 

13 95 

•7485 

14-45 

•7744 

14-95 

.6454 

12.46 

• 6713 

12.96 

.6972 

13.46 

.7231 

13.96 

• 749 ° 

14.46 

•7749 

14.96 

• 6459 

12.47 

.6718 

12.97 

.6977 

13-47 

.7236 

I 3.97 

•7495 

14.47 

•7754 

14.97 

• 6465 

12.48 

.6724 

12.q8 J 

.6983 

13-48 

.7242 

13.98 

•7501 

1448 

.7760 

14.98 

.6470 

12.49 

6729 

12.99 

.69S8 

13-49 

• 7247 

13-99 

•7506 14.49 

•7765 

14.99 

• 6475 

12 50I 

•6734 

13.00 B 

•6993 

13-50 

.7252I14.OO u 

• 751114.50 l! 

• 777 o'i 5 .oo 


4 






























26 


Ammonia Conversion Table. 


TABLE III. 

AMMONIA CONVERSION TABLE. 

The Ammonia Table is constructed for use more particu¬ 
larly in fertilizer analyses, but can be used as well in all 
cases where the per cent, or weight of ammonia gas (NH S ) 
is desired from a known per cent, or weight of nitrogen (N). 
It is rather to be used, however, to derive per cent, from per 
cent., since the decimals are not carried far enough for the 
accurate reading of weights. It extends from o.oi % to 
15.00 % of N, or from 0.01 $ to 18.21 ^ of NH S , being compre¬ 
hensive enough to embrace all commercial substances con¬ 
taining nitrogenous materials likely to come up for analysis. 
In cases of substances having larger per cents of N than the 
table gives, it will suffice to take half the per cent, of N 
found and then double the per cent, of NH S given in the 
column opposite. 

The factor used in constructing this table is (1.21396 or) 
1.2 14, based on the atomic weight of N, 14.021. 

If the determination of ammonia is made by the so-called 
“ copper oxide” method, and the N caught and measured, 
then by Table IV found following this, the weight of N 
is read from the volume of N (corrected for temperature 
and air pressure as designated by the thermometric and 
barometric heights), and from the weight of N, the percent, 
of N is calculated in a moment’s time. Having then the 
per cent, of N, the per cent, of NH 3 is read from the accom¬ 
panying “ Ammonia Table.” 

In cases where the determination of ammonia is made by 
the so-called “ soda-lime ” method, or the modification of the 
same, the “ Ruffle Method,” and the N comes off from the 
combustion combined with H, as NH 3 , and is caught in a 
standard solution of H 2 SO... then the table is still useful, espe¬ 
cially when the solutions are prepared in the following very 
convenient manner. The standard solution of H 2 S 0 4 ismade 
so that each c.c. contains 0.02 gramme of S 0 3 . The KHO 
solution is made so that 1 c.c. exactly neutralizes 1 c.c. of the 


Ammonia Conversion Table. 


27 


H.,S 0 4 solution. After the evolution of the NH 3 and its 
absorption in a measured number of c.c. of the H 2 S 0 4 solu¬ 
tion. the KHO solution is run in from a burette until all 
the remaining H 2 S 0 4 is exactly neutralized (designated 
best by coralline solution). Subtract the number of c.c. of 
the KHO used from the total number of c.c. of the H 2 S 0 4 
solution taken, and the difference in c.c. is twice the per cent. 
of N, provided that the amount of substance taken for the 
analysis was 1.4 grammes. Therefore, take half the differ¬ 
ence in c.c. for the per cent, of N and from it read in the 
table the per cent, of NH 3 . 


28 


Ammonia Table. 


Nitrogen .00—3.99. 


z 

X 

£ 

Z 

X 

Z 

Z 

Z 

Z 

X 

z, 

Z 

X 

z 

Z 

£ 

.00 

.00 

•50 

.61 

I. OO 

1.21 

1-50 

1.82 

2.00 

2 43 

2.50 

304 

.01 

.01 

• 5 i 

.62 

I.OI 

1.23 

1 • 5 1 

I. S3 

2.01 

2-44 

2.51 

3-05 

.02 

.02 

• 52 

•63 

1.02 

1.24 

1-52 

1.85 

2.02 

2-45 

2.52 

3.06 

•03 

.04 

•53 

.64 

1.03 

1.25 

i -53 

1.86 

2.03 

2.46 

2-53 

3-°7 

.04 

•05 

•54 

.66 

I 04 

1.26 

i -54 

1.87 

2.04 

2.48 

2-54 

3.0S 

•05 

.06 

•55 

.67 

1.05 

1.27 

i -55 

1.8S 

2.05 

2.49 

2-55 

3.10 

.06 

.07 

-56 

.68 

I.06 

1.29 

1.56 

1.89 

2.06 

2.50 

2.56 

3.11 

.07 

.08 

•57 

.69 

I 07 

1-30 

i -57 

1.91 

2.07 

2.51 

2-57 

3.12 

.08 

. IO 

.58 

.70 

I.08 

i- 3 * 

1.58 

1.92 

2.08 

2-53 

2.58 

3-13 

.09 

.11 

•59 

■72 

I.09 

1-32 

i -59 

1-93 

2.09 

2-54 

2-59 

3-14 

. IO 

.12 

.60 

•73 

I. IO 

r -34 

1.60 

1.94 

2.10 

2-55 

2.60 

3.16 

. 11 

•13 

.6l 

• 74 

I.II 

i -35 

1.61 

i -95 

2.11 

2.56 

2.61 

3-17 

.12 

•15 

.62 

•75 

1. 12 

1.36 

1.62 

1.97 

2.12 

2 57 

2.62 

3 -iS 

•13 

. l6 

•63 

.76 

I -13 

i -37 

1.63 

1.98 

2.13 

2-59 

2.63 

3-19 

.14 

•17 

.64 

.78 

1.14 

1.38 

1.64 

1.99 

2 14 

2.60 

2.64 

3.20 

■15 

.18 

•65 

•79 

I-I 5 

1.40 

1.65 

2.00 

215 

2.61 

2.65 

3.22 

.16 

.19 

.66 

.80 

1.16 

1.41 

1.66 

2.02 

2.16 

2.62 

2 66 

3-23 

•17 

.21 

.67 

.81 

1.17 

1.42 

1.67 

2 03 

2.17 

2.63 

2.67 

3-24 

• IS 

.22 

.68 

.83 

1.18 

i -43 

1.6S 

2.04 

2.18 

2.65 

2.68 

3-25 

.IQ 

•23 

.69 

.84 

1.19 

1.44 

1.69 

2.05 

2.19 

2.66 

2.69 

3-27 

.20 

.24 

.70 

.85 

1 20 

1.46 

1.70 

2.06 

2.20 

2.67 

2.70 

3.28 

.21 

•25 

•71 

.86 

1.21 

1.47 

1.71 

2.08 

2.21 

2.68 

2.71 

3-29 

.22 

•27 

•72 

•87 

1.22 

1.48 

1.72 

2.09 

2.22 

2.70 

2.72 

3-30 

•23 

.28 

•73 

.89 

1.23 

1.49 

i -73 

2.10 

2.23 

2.71 

2-73 

3 3 i 

.24 

.29 

•74 

.90 

1.24 

1 .51 

i -74 

2.11 

2.24 

2.72 

2.74 

3-33 

•25 

•30 

•75 

.91 

125 

1-52 

i -75 

2.12 

2.25 

2-73 

2-75 

3-34 

.26 

•32 

76 

•92 

1.26 

i -53 

1.76 

2.14 

2.26 

2-74 

2.76 

3-35 

.27 

•33 

■77 

•93 

1.27 

i -54 

i -77 

2.15 

2.27 

2.76 

2-77 

3-36 

.28 

■34 

•78 

•95 

1.28 

i -55 

1.78 

2.16 

2.28 

2-77 

2.78 

3-37 

•29 

•35 

•79 

.96 

1 29 

i -57 

1.79 

2.17 

2.29 

2.78 

2.79 

3.39 

•30 

•36 

.80 

•97 

1.30 

1.58 

1.80 

2.19 

2.30 

2.79 

2.80 

3.40 

•31 

•38 

.Si 

.98 

I - 3 I 

1-59 

1.81 

2.20 

2.31 

2.80 

2.81 

3-41 

•32 

•39 

.82 

1.00 

1.32 

1.60 

1.S2 

2.21 

2.32 

2.S2 

2.82 

3-42 

•33 

.40 

.83 

1.01 

i -33 

1.61 

1.83 

2. 22 

2.33 

2.83 

2.83 

3-44 

•34 

.41 

.84 

1.02 

i -34 

1.63 

1.84 

2.23 

2-34 

2.S4 

2.84 

3-45 

•35 

.42 

.85 

1.03 

i -35 

1.64 

1.83 

2.25 

2-35 

2.85 

2.85 

3-46 

•36 

•44 

.86 

1.04 

1.36 

1.65 

1.86 

2.26 

2.36] 

2.87 

2.86 

3-47 

• 37 

■45 

.87 

1.06 

i -37 

1.66 

1.87 

2.27 

2-37 

2.88 

2.87 

3 - 4 S 

.38 

.46 

.88 

1.07 

1.38 

1.68 

1.88 

2.28 

2.30 

2.89 

2.88 

3-50 

•39 

•47 

.89 

1.08 

t -39 

1.69 

1.89 

2.29 

2-39 

2.90 

2.89 

3 - 5 i 

.40 

• 49 

.90 

1.09 

1.40 

1.70 

1.90 

2.31 

2.40 

2.91 

2.90 

3-52 

■ 4 i 

•50 

.91 

1.10 

1. 4 i 

I- 7 1 

1.91 

2.32 

2.41 

2-93 

2.91 

3-53 

•42 

• 5 i 

•92 

C.I2 

1.42 

1.72 

1.92 

2-33 

2.42 

2-94 

2.92 

3-54 

•43 

•52 

•93 

113 

i -43 

i -74 

i -93 

2-34 

2-43 

2-95 

2-93 

3-56 

•44 

•53 

•94 

II4 

1.44 

1 • 75 

1.94 

2.36 

2-44 

2.96 

2.94 

3-57 

•45 

•55 

■95 

I -15 

i -45 

1.76 

I 1-95 

2-37 

2-45 

2.97 

2-95 

3-58 

.46 

•56 

.96 

1.17 

1.46 

i -77 

i.q6 

2.38 

2.46 

2.99 

2.96 

3-59 

•47 

•57 

•97 

1.18 

1.47 

1.78 

i -97 

2-39 

2-47 

3.00 

2-97 

3.61 

.48 

.58 

.98 

1.19 

1.48 

1. So 

1.98 

2 40 

2.4S 

3.01 

2.9S 

3.62 

• 49 

•59 

•99 

1.20 

1.49 

1. Si 

T -99 

2.42 

2-49 

3.02 

2.99 

3 63 










































Ammonia Table. 


29 


Nitrogen 3.00—5.99. 




I 

X 6 


= . | 




i 


EG 

z 

Z 

Z 

z 1 

Z 

Z 

Z 

Z 

Z 

Z 

Z 

Z 

3.00 

3-64 

3 50 

4-25 I 

4.0c 

4.86 

4 5 C 

5-46 

5.CO 

b 07 

5- 5° 

6.6S 

3.01 

3 65 

3-5i 

4.2b ] 

4 01 

4.87 

4 5 1 

5-48 

5.01 

60S 

5-5i 

6.69 

3.02 

3-67 

3-52 

4-27 ! 

4.02 

4 ss 

4 52 

5-49 

5.02 

b.c9 

5-52 

6.70 

3-03 

3.68 

3-53 

4.29 

4 03 

4-8-9 

4 53 

5-50 

5-03 

b I l 

5-53 

6.71 

3-04 

3-69 

3-54 

4-3° 

4.04 

4.90 

4-54 

5-5' 

5-04 

b. 12 

5-54 

6-73 

3-05 

3-70 

3-55 

431 

4-05 

4.92 

4-55 

5-52 

5 05 

6.13 

5-55 

6.74 

3.06 

3-71 

3-5 (l 

4-32 

4.06 

4-93 

4-56 

5-54 

5.0b 

b.14 

5 56 

6.75 

3-07 

3-73 

3-57 

4-33 

4.07 

4-94 

4-57 

5-55 

5-07 

b.15 

5-57 

6.76 

3 08 

3-74 

3-58 

4-35 

4 oS 

4 95 

4.58 

5-56 

5.08 

b. 17 

5.58 

b.77 

3-09 

3-75 

3-59 

4.36 

4.09 

4-97 

4-59 

5-57 

5-og 

b iS 

5-59 

6.79 

3.10 

3-76 

3.6c 

4-37 

4.10 

4.98 

4- 60 

5 58 

5 10 

6-19 1 

5.60 

b.So 

3-n 

3-78 

3.61 

4-3S 

4.11 

4-99 

4.61 

5-bo 

5- 11 

b.20 | 

5.61 

b. 81 

3.12 

3-79 I 

3.62 

4-39 

4.12 

5 °o 

4 62 

5 - 6 i 

5-12 

b.22 \ 

5.62 

6.82 

3i3 

3.80 

3 03 

4.41 

4.13 

5,01 

4-63 

5-62 

5-13 

b 23 ? 

5 63 

6.83 

3-14 

3-Si 

3-f>4 

4.42 

4.14 

5-03 

4.64 

5-63 

5 14 

b.24 Si 

5-64 

6 85 

3-i5 

3.82 

3-65 

4 43 

4-15 

5.04 

4-65 

5-65 

5-15 

6.25 [ 

5-65 

6.86 

3.16 

3-S4 

3.66 

4-44 

4. lb 

5-05 

4.6b 

5-bb 

5.1b 

6.2b k 

5-66 

6.87 

3-17 

3-85 

3-67 

4.46 

4.17 

5(6 

4.67 

5-67 

5 17 

b.28 

5 67 

6.88 

3-iS 

3-86 

3-68 

4-471 

4.18 

5 07 

4.68 

5-bS 

5.18 

b.29 1 

5-6S 

6 90 

3-19 

3-87 

3-69 

4 48 

4.19 

5-09 

4.69 

5-69 I 

5-i9 

b.30 

5-69 

6.91 

3.20 

3-88 

3-7° 

4.49 

4.20 

5.10 

4.70 

5 7i 

5 20 

b.31 | 

5-70 

6.92 

3.21 

3-90 

3-71 

4. '0 

4.21 

5- 11 

4-7i 

5-72 

5-21 

b 32 

5-7i 

6 93 

3.22 

3 9 1 

3-72 

4-52 

4.22 

5.12 

4.72 

5-73 

5-22 

6-34 

5-72 

6.94 

3-23 

3-9 2 

3-73 

4-53 

4-23 

5- T 4 

4-73 

5-74 

5- 2 3 

6-35 

5-73 

6.96 

3-24 

3-93 

3-74 

454 

4.24 

5-i5 

4-74 

5-75 

5-24 

6.36 

5-74 

6.97 

3-25 

3-95 

3-75 

4-55 

4-25 

5.16 

4 75 

5-77 

5-25 

6-37 

5-75 

6.98 

3.26 

3-96 

3-76 

4-56 

4.26 

5-i7 

4.76 

5-78 

5.2b 

6.39 

5-76 

6.99 

3-27 

3-97 

3-77 

4-58 

4 27 

5-iS 

4-77 

5-79 

5-27 

6.40 

5-77 

7.00 

3.28 

3-9 8 

3-7§ 

4-59 

4.28 

5.20 

4.78 

5.80 

5-28 

6.41 

5-7S 

7.02 

3-29 

3-99 

3-79 

4.60 

4.29 

5.21 

4-79 

5-82 

5-29 

6.42 

5-79 

7-03 

3-3° 

4.01 

3.80 

4.61 

4-3° 

5.22 

4.80 

5-83 

5-3° 

6-43 

5.80 

7.04 

3-3' 

4.02 

3.81 

4-63 

4-3i 

5 23 

4.81 

5.84 

5-3 1 

6-45 

5.8! 

7-05 

3-32 

4-03 

3.82 

4.64 

4-32 

5-24 

4.82 

5-85 

5-32 

6.46 

5.82 

7.07 

3-33 

4.04 

3 83 

4 65 

4-33 

5.26 

4-83 

5.8b 

5-33 

6.47 

5-83 

7.08 

3-34 

4 05 

3-84 

4.66 

4-34 

5-27 

4.84 

5-88 

5-34 

6.48 

5-84 

7.09 

3-35 

4.07 

3-85 

4.67 

4-35 

5.28 

4-85 

5-89 

5-35 

6.49 

5-85 

7.1° 

3-36 

4.08 

3-86 

4.69 

4-36 

5-29 

4.S6 

5.90 

5-36 

651 

5-86 

7.11 

3-37 

4.09 

3-87 

4.70 

4-37 

5-3i 

4.87 

5-9 1 

5-37 

6.52 

5-87 

7- I 3 

3-38 

4.10 

3-88 

4 71 

4-38 

5-32 

| 4.88 

5-9 2 

5-38 

6-53 

] 5-88 

7.14 

3-39 

4.12 

389 

4.72 

4-39 

5-33 

4.80 

5-94 

5-39 

6-54 

5- 5 9 

7-15 

3-40 

413 

3-9° 

4-73 

4 4 C 

5-34 

4.9c 

5-95 

5-4 c 

6.56 

5-9 e 

7.16 

3-4i 

4.14 

3-9 1 

4-75 

4.41 

5-35 

4-9 1 

5-9 6 

A 5-4i 

6-57 

5-9 1 

7.17 

3-42 

4-15 

3-9 2 

4.76 

4.42 

5-37 

4.92 

5-97 

5-4- 

6.58 

5-9 : 

7.19 

3-43 

4.16 

3-93 

4-77 

4-43 

5-38 

4-9: 

5-99 

5-42 

6-59 

5-92 

7.20 

3-44 

4.18 

3-94 

4.7S 

4-44 

5-39 

4-9- 

b.oo 

5-4-1 

6.60 

5-94 

7.21 

3-45 

4.19 

3-93 

4.80 

4-45 

5-4° 

4-9E 

b.oi 

5-45 

6.62 

5-9E 

7.22 

3-46 

4.20 

3-9 f 

4.81 

4-4f 

5-4i 

4-9 f 

b.02 

5-4^ 

6.63 

5-9 ( 

7.24 

3-47 

4.21 

3-91 

4 82 

4-47 

5-43 

4-9' 

b.03 

5-4- 

6.64 

5-9’ 

7.25 

3-48 

4.22 

398 

4-83 

4.4E 

5-44 

4.9, 

b.05 

5-4^ 

6.65 

5-9' 

7.26 

3-4c 

4.24 

3-9 c 

4 84 

4.4c 

5-45 

4-9< 

b.ob 

B 5-4 ( 

; 6.60 

5-99> 7-27 


































































Ammonia Table. 


30 


Nitrogen 6.00—8.99. 



DC 


, ” 






»—T 



£ 

2 

2 

2 

2 

2 

2 

2 

2 

2 

2 

2 

6.00 

7.28 

6.5c. 

7.89 

7.00 

3 .50 

7-50 

9.11 

8.00 

9.71 

3.50 

10.32 

6.01 

7-30 

6.51 

7.90 

7.01 

8.51 

7 - 5 i 

9.12 

8.01 

9.72 

S.5T 1 

10.33 

6.02 

7 - 3 i 

6.52 

7.92 

7 02 

S.52 

7-52 

9-13 

8.02 

9 ' 74 

8.52 

10.34 

6.03 

7-32 

6-53 

7-93 

7-03 

3-53 

7-53 

9 -M 

S.03 

9-75 

8-53 

10.36 

6.04 

7-33 

6-54 

7-94 

7.04 

3.55 

7-54 

9.15 

8.04 

9.76 

3.54 

10.37 

6.05 

7-34 

6-55 

7-95 

7-05 

S.56 

7-55 

9.17 

S.05 

9-77 

8-55 

10.38 

6.06 

7-36 

6.56 

7.96 

7.06 

3-57 

7-56 

9.18 

8.06 

9.78 

8.56 

10.39 

6.07 

7-37 

6-57 

7.98 

7.07 

8.58 

7-57 

9.19 

8.07 

9.80 

8-57 

10.40 

6.08 

7 - 3 » 

6.58 

7-99 

7.08 

8.60 

7.58 

9.2c 

8.08 

9.Si 

8.5S 

10.42 

6.09 

7-39 

6.59 

S.00 

7.09 

8.61 

7-59 

9.21 

8.09 

9.82 

S .59 

10.43 

6.10 

7 - 4 i 

6.60 

8.or 

7.10 

S.62 

7.60 

9-23 

8.10 

9' 8 3 

8.60 

10.44 

6 . 11 

7.42 

6.61 

8.02 

7 - 1 1 

8.63 

7.61 

9.24 

8 . 11 

9-85 

8.61 

10.45 

6.12 

7-43 

6.62 

8.04 

7.12 

8.64 

7.62 

9-25 

8 12 

9.86 

8.62 

10.46 

6.13 

7-44 

6.63 

8.05 

7-13 

3.66 

7-63 

9.26 

8.13 

9.87 

8.63 

10.48 

6.14 

705 

6.64 

8.06 

7-14 

S.67 

7.64 

9.27 

8.14 

9.8S 

8.64 

10.49 

6.15 

7-47 

6.65 

8.07 

7 -i 5 

8.6S 

7-65 

9.29 

8.15 

9.S9 

S.65 

10.50 

6.16 

7.48 

6.66 

8.09 

7.16 

8.69 

7.66 

9-30 

8.16 

9.91 

8.66 

10.51 

6.17 

7-49 

6.67 

8.ro 

7-17 

8.70 

7.67 

9 - 3 i 

8.17 

9.92 

8.67 

10.53 

6.18 

7-50 

6.68 

8.11 

7.18 

8.72 

7.68 

9-32 

8.18 

9-93 

S.6S 

10.54 

6 19 

7-51 

6.69 

8 12 

7.19 

8.73 

7.69 

9-34 

S. 19 

9'94 

8.69 

10.55 

6.20 

7.53 

6.70 

3.13 

7.20 

S. 74 

7.70 

9-35 

8.20 

9 95 

8.70 

10.56 

6.21 

7-54 

6.71 

8.15 

7.21 

3-75 

7 - 7 i 

936 

S.21 

9-97 

S.71 

10.57 

6.22 

7-55 

6.72 

8.16 

7.22 

8.77 

7-72 

9-37 

8.22 

9.98 

S.72 

10.59 

6.23 

7.56 

6-73 

3.17 

7-23 

8.7S 

7-73 

9-38 

S.23 

9-99 

3-73 

10.60 

6.24 

7 . 5 S 

6.74 

S. 18 

7.24 

8.79 

7-74 

9.40 

8.24 

10.00 

8.74 

10.61 

6.2s 

7-59 

6-75 

S. 19 

7-25 

8.80 

7-75 

9.41 

S.25 

10.02 

3-75 

10.62 

6.26 

7.60 

6.76 

8.21 

7.26 

8 .Si 

7.76 

9.42 

8.26 

10.03 

8.76 

ro.63 

6.27 

7.61 

6.77 

S. 22 

7.27 

8.83 

7-77 

9-43 

3.27 

10.04 

8-77 

10.65 

6.2S 

7.62 

6.7S 

s.23 

7.2S 

8.S4 

7.78 

9-44 

8.28 

10.05 

8.78 

10.66 

6.29 

7-6 I 

6.79 

8.24 

7.29 

S.85 

7-79 

9.46 

8.29 

10.06 

8 . 79 

10.67 

6.30 

7 65 

6.80 

8.26 

7-30 

8.86 

7.80 

9 47 

S.30 

10.08 

8.80 

10.68 

6.31 

7.66 

6.81 

8.27 

7-31 

8.87 

7.81 

9.48 

8.31 

10.09 

8.81 

10.70 

6.32 

7.67 

6.82 

8.2s 

7-32 

S.89 

7.82 

9-49 

3.32 

10.10 

S.82 

10.71 

6-33 

7.68 

6.83 

8.29 

7-33 

8.90 

7 - S3 

9 - 5 i 

8-33 

10.11 

8.83 

10.72 

6-34 

7.70 

6.84 

8.30 

7-34 

8.91 

7.84 

9-52 

8.34 

10.12 

3.84 

10.73 

6-35 

7-71 

6.85 

8.32 

7-35 

8.92 

7.85 

9-53 

8-35 

10.14 

S.85 

10.74 

6.36 

7.72 

6.86 

3.33 

7-36 

8.94 

7.86 

9-54 

S.36 

10.15 

8.36 

10.76 

6-37 

7-73 

6.87 

8.34 

7-37 

8-95 

7.87 

9-55 

3-37 

10.16 

8.87 

10.77 

6.38 

7-75 

6 .8S 

3.35 

7 - 3 S 

8.96 

7.88 

9-57 

8.38 

10.17 

8.S 3 

10.78 

6-39 

7.76 

6.89 

3.3b 

7-39 

S.97 

7.S9 

9-58 

8-39 

10.19 

8.89 

10.79 

6.40 

7-77 

6.90 

8.38 

7.40 

8.98 

7.90 

9-59 

S.40 

10.20 

S.90 

10.80 

6.41 

7.78 

6.91 

8-39 

7-41 

9.00 

7.91 

9.60 

S.41 

10.21 

S.91 

10.82 

6.42 

7-79 

6.92 

8.40 

7.42 

9.01 

7.92 

g.61 

S.42 

10.22 

8.92 

10.83 

6-43 

7 - 8 i 

6-93 

8.41 

7-43 

9.02 

7-93 

9- 6 3 

S.43 

10.23 

S -93 

10.84 

6.44 

7.82 

6.94 

3-43 

7-44 

9'°3 

7-94 

9.64 

8.44 

10.25 

8.94 

10.85 

6-45 

7 -S 3 

6-95 

S.44 

7-45 

9.04 

7-95 

9- 6 5 

8.45 

10.26 

8-95 

10.87 

6.46 

7.84 

6.96 

8-45 

7.46 

9.06 

7.96 

g 66 

S.46 

10.27 

8.96 

10.88 

6.47 

7-85 

6.97 

8.46 

707 

9.07 

7-97 

9.68 

S.47 

10.28 

8.97 

10.89 

6.48 

7.87 

6.9S 

8.47 

7.48 

9.08 

7.98 

9.69 

S.4S 

10.29 

8.98 

10.90 

6-49 

7.88 

6.99 

8.49 

7-49 

9°9 

7-99 

9.70 

8.49 

10.31 

8.99 

10.91 





































Ammonia Table. 


3 1 


Nitrogen 9.00—11.99. 


z 

j ' s HJSI 

• 

£ 1 

z 

Z 

Z 

£ 

2 

Z 

z 

Z 

X 

z 

9.00 

10.93 

9-50 11-53 

10.00 

12.14 

10.50 

12-75 

11.00 

13-35 

11.50 

13.96 

9.01 

10.94 

9 - 5 i 

H -55 

10.01 

12.15 

10.51 

12.76 

11.01 

13-37 

11.51 

13-97 

9.02 

10.95 

9-52 

11.56 

10.02 

12.16 

10.52 

12.77 

11.02 

13-3S 

11.52 

13-99 

9-°3 

10.96 

9-53 i -57 

10.03 

12.18 

10.53 

12.78 

11.03 

13-39 

H -53 

14.CO 

9.04 

10.97 

9-54 11.58 

10.04 

12.19 

10.54 

12.80 

11.04 

13.40 

H -54 

14.01 

9-°5 

10.99 

9-55 H -59 

10.05 

12.20 

10.55 

12.81 

11.05 

13-41 

n -55 

14.02 

9.06 

11.00 

9.56 11.61 

10.06 

12.21 

10.56 

12.82 

11.06 

13-43 

11.56 

14.03 

9.07 

11.01 

9.57 11.6a 

10.07 

12.22 

10-57 

12.83 

11.07 

13-44 

H -57 

14-05 

9.08 

11.02 

9-58 

11.63 

10.08 

12.24 

10.58 

12.84 

11.08 

13-45 

11.58 

14.06 

9°9 

11.04 

9-59 

11.64 

10.09 

12.25 

10.59 

12.S6 

11.09 

i 3 - 4 <o 

H -59 

14.07 

9.10 

11.05 

9.60 

11.65 

10.10 

12.26 

10.60 

12.87 

11.10 

13.48 

11.60 

14. oS 

9.11 

11.06 

9.61 11.67 

10.11 

12.27 

10.61 

12.88 

11.11 

13-49 

11.61 

14.09 

9.12 

11.07 

9.62; 

11.68 

10.12 

12.29 

10.62 

12.89 

11.12 

13-50 

11.62 

14.11 

9-13 

11.08 

9-631 

11.69 

10.13 

12.30 

10.63 

12.90 

11.13 

I 3 - 5 I 

11.63 

14.12 

9- I 4 

11.10 

9.64 11.70 

10.14 

12.31 

10.64 

12.92 

11.14 

13-52 

11.64I14.13 

9-!5 

11.11 

9 - 6 5 i 

11.72 

10.15 

12.32 

10.65 

12.93 

11 15 

13-54 

11.65 

14.14 

9.16 

11.12 

9.66 11.73 

10.16 

12.33 

10.66 

12.94 

11.16 

13-55 

11.66 

14.16 

9.17 

11.13 

9.67,11.74 

10.17 

12.35 

10.67 

12.95 

11.17 

I 3-56 

11.67 

14.17 

9.18 

11.14 

9.68 

11.75 

10.18 

12.36 

10.68 

12.97 

11.18 

13-57 

11.68 

14 iS 

9.19 

11.16 

9.69 11.76 

10.19 

12.37 

10.69 

12 9S 

11.19 

I 3-58 

11.69 

14.19 

9.20 

11.17 

9.70I11.78 

10.20 

12.38 

10.70 

12.99 

11.20 

13.60 

11.70 

14.20 

9.21 

11.18 

9.71 11.79 

10.21 

12.39 

10.71 

13.00 

11.21 

13.61 

11.71 

14.22 

9.22 

11.19 

9.72 

11.80 

10.22 

12.41 

10.72 

13.01 

11.22 

13.62 

11.72 

14-23 

9-23 

11.21 

9.73 n.81 

10.23 

12.42 

10.73 

13-63 

11.23 

13-63 

H -73 

14.24 

9.24 

11.22 

9-74 n.82 

10.24 

12.43 

10.74 

13-04 

11.24 

13-65 

11.74 

14.25 

9-25 

11.23 

9.75 11.84 

TO .25 

12.44 

10.75 

13-05 

11.25 

13.66 

ii -75 

14.26 

9.26 

11.24 

9.76 11.S5 

10.26 

12.46 

10.76 

13.06 

11.26 

13-67 

11.76 

14.28 

9.27 

11.25 

9.77 11.86 

IO 27 

12 47 

10.77 

I 3-07 

11.27 

13.68 

11.77 

14.29 

9.28 

11.27 

9.78 

11.S7 

10.28 

12.48 

10.78 

13.09 

11.28 

13.69 

11.78 

14 30 

9.29 

11.28 

9-79 

11.89 

IO.29 

12.49 

10.79 

13.10 

11.29 

13-71 

11.79 

I 4 - 3 I 

9-30 

11.29 

9.80 

11.90 

IO.3O 

12.50 

10.80 

i 3 -ii 

11 30 

13.72 

11.80 

14-33 

9 - 3 i 

11.30 

9.81 

11.91 

10.31 

12.52 

10.Si 

13.12 

11.31 

13-73 

11.81 

14-34 

9 32 

11.31 

9 82 

11.92 

IO.32 

12-53 

10.82 

I 3 -I 4 

11.32 13.74 

11.82 

14-35 

9-33 

H -33 

9 83 

ii-93 

10-33 

12-54 

10.83 

I 3 -I 5 

ii -33 13-75 

11.83 

I 4-36 

9-34 

11.34 

9.S4 

11.95 

10.34 

12.55 

10.84 

13.16 

H -34 13-77 

11.84 

14-37 

9-35 

H -35 

9-851 

11.96 

10.35 

12.^6 

10.85 

I 3 -I 7 

H -35 

13.7S 

11.85 

14-39 

9-36 

11.36 

9.86 

11.97 

IO.36 

12.58 

10.86 

13.18 

11.36 

13-79 

11.86 

14.40 

9-37 

11-38 

9.S7 

11.98 

10-37 

12.59 

10.87 

13.20 

H -37 

13.So 

11.S7 

14.41 

9-38 

H -39 

9.S8 

11.99 

IO.3S 

12.60 

10. SS 

13.21 

11. 38 

13.82 

11.88 

14.42 

9-39 

11 40 

9.89 

12.01 

IO.39 

12.61 

10.89 

13.22 

11-39 

13-83 

11.89 

14 43 

9.40 

11.41 

9.90 

12.02 

IO.4O 

12.63 

10.90 

13.23 

11.40 

13-84 

11.90 

14-45 

9.41 

11.42 

9.91 

12.03 

IO.4I 

12.64 

10.91 

1324 

11.41 

13-85 

11.91 

14 46 

9.42 

11.44 

9.92 

12.04 

IO.42 

12.65 

10.92 

13.26 

11.42 

13.86 

11.92 

14-47 

9-43 

11.45 

9 93 

12.06 

IO.43 

12.66 

10.93 

13-27 

u -43 

13 88 

H -93 

14.48 

9.44 

11.46 

9.94 

12.07 

10.44 

12.67 

10.94 

13.28 

11.44 

13-89 

11.94 

14.50 

9-45 

n.47 

9-95 

12.08 

10.45 

12.69 

10.95 

13.29 

U -45 

13.90 

n -95 

14-51 

9-46 

11.48 

9.96 

12 09 

I0.4f 

12.70 

10.9( 

13-31 

11.46 

I3-9I 

11.96 

14-52 

9-47 

11.50 

9-97 

12.10 

IO.47 

12.71 

10.07 

13-32 

11.47 

13.92 

11 97 

14 53 

9.48 

11.51 

9.9S 

12.12 

IO.48 

12.72 

10.98 

13-33 

11.48 

13-94 

11.98(14.54 

9-49 

11.52 

9.99 

12.13 

IQ-49 

12.73 

10 99 

13-34 

11.40 

13-95 

11.99:14.56 











































32 


Ammonia Table. 


Nitrogen 12.00—14.99. 





, ^ 


, 05 


, ” 




X 

z 

Z 

Z 

Z 

Z 

Z 

Z 

Z 

z 

Z 

Z 

Z 

12.00 

14-57 

12.50 15.18 

13 00 

I 5-78 

13-50 

16.39 

14.00 

17.00 

14-50 

17.60 

12.01 

I 4-58 

12.51 

15-19 

13.01 

15-79 

13-51 

16.40 

14 01 

17.01 

14.51 

17.62 

12.02 

14-59 

12.52 

15.20 

13.02 

15.81 

13-52 

16.41 

14.02 

17.02 

Mo 2 

17-63 

12.03 

14.60 

12.53 15-21 

13.03 

15.82 

13-53 

16.43 

14.03 

17-03 

14-53 

17.64 

12.04 

14.62 

12 54 1 1 5- 22 

13-04 

15-83 

13 54 

16.44 

14.04 

17.04 

14-54 

17-65 

12.05 

14 63 

12-55 

15-24 

13-05 

15-84 

13-55 

16.45 

1405 

17.06 

14-55 

17.66 

12.06 

14 64 

12.56 15.25 

13.06 

15-85 

I 3-56 

16.46 

14.06 

17.07 

14-56 

17.68 

12 07 

14 65 

12.57 

15.26 

13.07 

1587 

13-57 

16.47 

14.07 

17.08 

' 4-57 

17.69 

12.08 

14.67 

12.58 15.27 

13.08 

15-88 

I 3-58 

16.49 

14.08 

17.09 

14.58 

17.70 

I2.O9 

14.68 

12.59 15-28 

13.09 

15.89 

13-59 

16.50 

14.09 

17.11 

> 4-59 

17.71 

12 . IO 

14.69 

12.6015.30 

13.10 

15.90 

13.60 

16.51 

14.10 

17.12 

14.60 

17.72 

12.11 

14.70 

12.61 

I 5 - 3 I 

13-11 

I 5 - 9 2 

13.61 

16.52 

14.11 

I 7 -I 3 

14.61 

17-74 

12.12 

14.71 

12.62 

15-32 

13.12 

15-93 

13.62 

i 6.53 

14.12 

17.14 

14.62 

17-75 

12.13 

14-73 

12.63 15.33 

13-13 

15-94 

13-63 

i 6.55 

I 4 -I 3 

I 7 -I 5 

14.63 

17.76 

12. 14 

14 74 

12.64 

15-34 

13-14 

15-95 

13-64 

16.56 

14.14 

17.17 

14.64 

17-77 

12.15 

14-75 

12.6515 36 

13-15 

15.96 

13-65 

16-57 

1415 

17.18 

14-65 

17-79 

I2.l6 

14.76 

12.66 

15-37 

13.16 

15-98 

13 66 

16.58 

14.16 

17.19 

14.66 

17.So 

12. 17 

14-77 

12.67 

I 5-38 

I 3 -I 7 

15-99 

13.67 

16.60 

14.17 

17.20 

14.67 

17.Si 

I 2 .lS 

14.79 

12.68 

15-39 

13-18 

16.00 

13.68 

16.61 

14.18 

17.21 

14.68 

17.82 

12.19 

14.80 

12.69 

I5-4I 

I3-I9 

16.01 

13.69 

16.62 

14.19 

17.23 

14.69 

17.83 

12.20 

14.Si 

12.7045.42 

13.20 

16.02 

13.70 

16.63 

14 20 

17.24 

14.70 

17-85 

12.21 

14.82 

12.71 

15-43 

13.21 

16.04 

I3-7I 

16.64 

14 21 

17-25 

14.71 

17.86 

12.22 

14.84 

12.72 15.44 

13.22 

16.05 

13.72 

16.66 

14.22 

17.26 

14.72 

17-87 

12.23 

14.85 

12-73 15-45 

13-23 

16.06 

13-73 

16.67 

1423 

17.28 

14-73 

17.88 

12.24 

14.86 

12.74 15.47 

13-24 

16.07 

13 74 

16.68 

14.24 

17.29 

14-74 

17.S9 

12.25 

14.87 

12.75 15.48 

13-25 

16.09 

13-75 

16.69 

14-25 

17.30 

14-75 

17.91 

12.26 

14.88 

12.76 15.49 

13.26 

16.10 

13.76 

16.70 

14.26 

I7-3I 

14.76 

17.92 

12.27 

14.90 

12.77 15-50 

13.27 

16.11 

13-77 

16.72 

14.27 

I7-32 

14-77 

17.93 

12.28 

x 4 - 9 r 

12.78 

I5-5I 

13.28 

16.12 

I3-78 

16-73 

14 28 

17-34 

I4-7S 

17-94 

12.29 

14.92 

12.79 15-53 

13.29 

16.13 

13-79 

1674 

14-29 

17-35 

14.79 

17.96 

12.30 

14-93 

12.80^15.54 

13-30 

16 15 

13.So 

16-75 

14-30 

I7-36 

14.80 

17-97 

12.31 

14 94 

12.81 

15-55 

I3-3I 

16 16 

I3-8i 

16.77 

i4-3i 

17-37 

14.81 

17.98 

12.32 

14.96 

12.82 15.56 

13-32 

16.17 

13.82 

16.78 

14-32 

I7-38 

14.82 

17.99 

*2.33 

14.97 

12.83 

r5-58 

13-33 

16.18 

13-83, 

16-79 

14-33 

17-40 

14-83 

1S.00 

12.34 

14.98 

12.S415.59 

13-34 

16.19 

13-84 

16.80 

14-34 

17.41 

14.84 

18.02 

12.35 

14.99 

12.85 

15.60 

13-35 

16.21 

13-85 

16.81 

14-35 

17.42 

14 85, 

18.03 

12.36 

15.01 

12.86 15.61 

I3-36 

16.22 

13.86 

16.83 

14.36 

17-43 

14.86 

18.04 

12.37 

15.02 

12.87 

15.62 

13-37 

16.23 

13-87 

16.84 

14-37 

17-45 

14-87 

18.05 

12.38 

15-03 

12.88 

I5-64 

13-38 

16.24 

13-88 

16.85 

14.38 

17.46 

14.88 

18.06 

12.39 

15-04 

12.S9 

15-65 

13-39 

16.26 

13.S9 

16.86 

14-39 

17-47 

14.89 

18. oS 

12.40 

15-05 

12.90 

15.66 

13.40 

16.27 

13 9 ° 

16.87 

14.40 

17.48 

14.90 

18.09 

12.41 

15-07 

12.91 

15.67 

13-41 

16.28 

13-91 

16.89 

14.41 

17.49 

14.9 1 

1S.10 

12.42 

15.08 

12.92 

15.68 

13-42 

16.29 

13.92 

16.90 

14.42 

I 7 - 5 I 

14.92 

18. ii 

12.43 

15.09 

12.93 

15.70 

13-43 

16.30 

13-93 

16.91 

14-43 

17.52 

14-93 

18.13 

12.44 

15.10 

12.94 

I 5 - 7 I 

13-44 

16.32 

13-94 

16.92 

14.44 

17-53 

14.94 

18.14 

12-45 

r 5 - 11 

12.95 

15-72 

13-45 

16.33 

13-95 

16.94 

14-45 

17-54 

14-95 

18.15 

12.46 

I 5 -I 3 

12.96 

15-73 

13.46 

16.34 

13.96 

16.95 

14.46 

17-55 

14.96 

18.16 

12.47 

I 5 -I 4 

12.97 

15-75 

13-47 

16.35 

13-97 

16.96 

14-47 

17-57 

14-971 

18.17 

12.48 

I 5 -I 5 

12.98 

I 5-76 

I 3 - 4 S 

16.36 

13-98 

16.97 

14.48 

I 7-58 

14.98 

1S.19 

12.49 

15.16 

12-99 

15-77 

13-49 

16.38 

13-99 

16.98 

14.49 

17-59 

14.99 

18.20 

























Nitrogen Conversion Table. 


33 


TABLE IV. 

NITROGEN CONVERSION TABLE. 


(Volume of N to weight of N). 


The following table is adapted from that of F. Frerichs, 
published in Germany in 1877. It gives the weight of one 
cubic centimetre of nitrogen, for all variations of tempera¬ 
ture and barometric height, the latter being given in both 
millimetres and inches. Multiply the volume of N found 
by the weight of one c. c. at the observed temperature and 
pressure and the weight of the N in milligrammes is ob¬ 
tained. 

Fractions of a thermometric degree or of a millimetre 
may be disregarded since the error thus arising is less than 
that incident to imperfect reading of the volume of N. 
Generally the errors caused by incorrect reading of baro¬ 
metric height and of temperature will equalize each other. 


5 


34 


Nitrogen Table. 


V 

726 

727 

728 

729 

730 

73 i 

732 

733 

734 

■is C 

m m. 

mm. 

m m. 

m m. 

m m. 

mm. 

m m. 

mm. 

mm. 

CJO r ) 

<D w 

28.58 

28.62 

2S.66 

28.70 

28.74 

28 78 

2S.82 

28.86 

28.90 

O 

in. 

in. 

in. 

in. 

in. 

in. 

in. 

in. 

in. 

o° 

1.1927 

1.1944 

1.1960 

1.1977 

1 >993 

12010 

1.2026 

1.2043 

12059 

i° 

1.1879 

1.1895 

1.1912 

1.1928 

'•1945 

1.1961 

1.1978 

1.1994 

1.2011 

2 

1.1829 

1.1S46 

1.1862 

1.1879 

1.1895 

1.1911 

i.1928 

1-1944 

1.1961 

3 

1.1781 

11797 

1.1814 

1.1830 

1.1846 

1-1863 

1.1879 

1.1895 

1.1912 

4 ° 

1.1731 

1.1748 

1.1764 

1.1780 

[.1797 

1.1813 

1.1829 

1.1845 

1.1862 

5 ' 

1.1682 

1.1698 

1.1714 

1-1731 

1 1747 

1.1763 

1.1779 

1.1796 

1.1S12 

6° 

1.1632 

1.1649 

1.1665 

1.1681 

1.1697 

1.1713 

11729 

11746 

1.1762 

7 ° 

11583 

11599 

11615 

1.1631 

1.1647 

1.1664 

1.1680 

1.1696 

1.1712 

8° 

11533 

11549 

1.1566 

1.1582 

1.1598 

1.1614 

11630 

1.1646 

1.1662 

9 ° 

1.1484 

1.1500 

1.1516 

11532 

1.1548 

1.1564 

1.1580 

1.1596 

1.1612 

IO° 

11433 

1.1449 

1.1465 

1.1481 

1.1497 

11513 

11529 

1-1545 

1.1561 

n° 

1.1384 

1.1400 

1.1416 

1-1432 

1.1448 

1.1463 

11479 

1-1495 

1.15H 

12° 

11332 

1.1348 

1.1364 

1.13S0 

1.1396 

1.1412 

1.1427 

1-1443 

11459 

13 

1.1282 

1.129s 

1-1314 

1.1329 

Li 345 

1.1361 

1.1377 

1.1392 

11408 

14 ° 

11231 

1.1247 

1.1263 

1-1279 

1.1294 

1.1310 

11326 

1.1342 

1.1357 

1 5 ° 

1.1180 

1.1196 

I. 1211 

1.1227 

1 1243 

11258 

11274 

1.1290 

11305 

i6° 

1.1128 

1.1144 

I.Il6o 

I-II 75 

1.1191 

1.1207 

1.1222 

11238 

11253 

17 

1-1077 

11092 

i 1108 

1.1124 

1.1139 

11155 

11170 

1.1186 

1.1201 

18° 

1 1023 

i-i °39 

1.1054 

1 1070 

1.10S5 

I 1101 

1.1116 

1.1132 

1 1147 

I 9 ° 

1-0971 

1 0986 

1.1002 

1.1017 

i-1033 

1.1048 

1.1064 

1.1079 

I.IO95 

20° 

1 0917 

10933 

1 0948 

1.0964 

1.0979 

I 0994 

1.1010 

1 1025 

I.IO4I 

21° 

1.0863 

1 0878 

1.0894 

1 09011 

1-0924 

1.0940 

10955 

1.0970 

I O986 

22 

1.0808 

r.0824 

1 0S39 

1 0854 

1 0869 

1.0885 

1.0900 

1.0915 

I.O93I 

23 " 

1-0753 

1.0768 

1.0783 

1.0799 

1.0814 

1.0829 

1.0844 

1.0860 

IA875 

24 ° 

1.0697 

1.0712 

1.0728 

1-0743 

1.0758 

1-0773 

1.07S8 

1.0804 

I.0819 

25 

1.0640 

1.0655 

1.0670 

1.0685 

1 0700 

1-0715 

1.0731 

1.0746 

I.O76I 

26° 

10583 

1.0598 

1.0613 

1.0628 

1.0644 

1.0659 

10674 

1.0689 

I.O7O4 

27 ° 

1.0526 

1.0541 

1.0556 

1-0571 

1.0586 

1.0601 

1.0616 

1.0631 

I 0646 

28° 

1.0467 

1.0482 

1.0497 

1.0512 

1.0527 

10542 

1-0557 

1.0572 

I.O587 

29° 

1.0406 

1.0421 

1.0436 

1.0451 

1.0466 

1.0481 

1.0496 

1.0511 

1.0526 

30 ° 

10347 

1.0362 

1-0377 

1.0392 

1.0407 

1.0421 

1.0436 

1.0451 

I.O466 

31 ° 

1.0285 

1.0300 

1-0315 

1.0329 

1-0344 

1-0359 

1-0374 

1.0389 

I.O4O4 

32 ° 

1.0222 

1.0237 

1-0251 

1.0266 

1.0281 

1 0296 

1.0311 

1.0325 

I.O34O 

33 ° 

1.0159 

1.0174 

1.0188 

1.0203 

1.0218 

1.0233 

1.0247 

1.0262 

1.0277 

34 ° 

1.0093 

1.0107 

1.0122 

1.0137 

1.0152 

1.0166 

1.0181 

1.0196 

1.0210 

35 ° 

1.0028 

1.0042 

1.0057 

1.0072 

1.0086 

1.0101 

1.0116 

1.0130 

1.0145 








































Nitrogen Table. 


35 



735 i 

736 

737 

738 

739 

740 ; 

74i 

742 

743 

V 

mm. 

mm. 

m m. 

mm 

m m. 

mm. 

mm. 

mm. 

mm. 

ZS ) V 

28.94 

28.98 

29 02 

29.06 

29 09 

29-13 

29.17 

29.21 

29.25 

in. 

in. 

in. 

in. 

in. 

m. 

in. 

in. 

in. 

O' 

1.2076 

1.2092 

12109 

1.2125 

1.2142 

1.2158 

1.2175 

1.2192 

1.2208 

i° 

12027 

1.2043 

1.2060 

1.2076 

T.2093 

1.2109 

1.2126 

1.2142 

1.2159 

2 

1 -1977 

1.1993 

12010 

1.2026 

1.2043 

1.2059 

1.2075 

1.2092 

1.2108 

3 ' 

1.1928 

11944 

1.1961 

1.1977 

1.1993 

1.2010 

1.2025 

1.2041 

1.2058 

4° 

1.1878 

1.1894 

1.1911 

11927 

i- I 943 

1-1959 

1.1976 

1.1992 

1.2008 

5° 

1.1S2S 

1.1S44 

1.1860 

1.1877 

1.1893 

1.1909 

1.1925 

1.1942 

1.1958 

6° 

1.1778 

1 • 1 794 

1.1S10 

1.1S27 

1.1S43 

1.1859 

1.1875 

1.1891 

1.1907 

7° 

1.1728 

11744 

1 1760 

1.1776 

I.I79 2 

1.1809 

1.1825 

1.1841 

1.1857 

8 

1.1678 

1.1694 

1 1710 

1.1726 

I-I742 

1.175s 

11774 

11790 

1.1807 

9° 

1.1628 

1.1644 

1.1660 

1.1676 

1.1692 

11708 

1.1724 

1.1740 

1.1756 

T 0° 

1-1577 

I-I593 

1.1609 

1.1625 

1.1641 

1.1657 

1.1673 

1.16S9 

1.1705 

I 1° 

1.1527 

i.>543 

1.1559 

1 • 1575 

I-I591 

1.1606 

1.1622 

1.1638 

1.1654 

12' 

r.1475 

1 • 1 49 > 

1.1507 

1.1523 

I.I538 

1-1554 

1.1570 

1.1586 

1.1602 

13 

1.1424 

1.1440 

1.1456 

11471 

1.1487 

1.1503 

1.1519 

11534 

1.1550 

14° 

1.1373 

1.1389 

1-1404 

1.1420 

1.1436 

1.1452 

1.1467 

1.1483 

1.1499 

15 

1.1321 

1 1337 

I.I352 

1.1368 

1.1384 

11399 

1.1415 

1.1431 

1.1446 

16’ 

1.1269 

1.1285 

I.T 300 

11316 

I-I331 

11347 

1.1363 

1.1378 

1.1394 

17° 

1.1217 

1.1233 

I.I248 

1.1264 

1.1279 

1.1295 

1.1310 

1.1326 

1.1342 

i8° 

1.1163 

1.1179 

I.1194 

1.1210 

1.1225 

1.124! 

1.1256 

1.1272 

1.1287 

T 9 

1.1110 

1.1125 

I.II4I 

1.1156 

1.1172 

1.1187 

1.1203 

1.1218 

1.1234 

20° 

11056 

1 1071 

I 1087 

1.1102 

1.11 18 

11133 

1.1148 

1.1164 

1.1179 

21° 

I IOOl 

1 1016 

1 IO32 

1.1047 

1.1062 

1.1078 

11093 

1. nos 

1.1124 

22 

I.C.946 

; .0961 

1.0977 

1.0992 

1.1007 

11023 

1.103s 

11053 

1.1068 

23° 

1.0890 

1.0905 

I. O92 I 

10936 

1.0951 

1.0966 

10982 

1.0997 

1.1C12 

24" 

I.0S34 

1 0849 

I.0S64 

1.0SS0 

1.0895 

1.0910 

1.0925 

1.0940 

1.0956 

25 

1.0776 

1.0791 

I 0806 

1.0821 

1.0837 

1.0852 

1.0867 

1.0882 

1.0897 

26 

I. 0719 

1 073 

I O749 

1 0764 

1 0779 

1.0794 

1.0810 

1.0825 

1.0840 

2 7° 

I 0661 

1.0676 

I.069I 

1.0706 

1.0721 

1.0736 

1.0751 

10766 

1.07S1 

28' 

1.0602 

1.0617 

I 0632 

1.0647 

1.0662 

1.0677 

1.0692 

1.0707 

1.0722 

2 9 C 

1.0541 

1 0556 

I.O57I 

1.0586 

1.0601 

1.0616 

1.0631 

1.0646 

1.0661 

30° 

1.0481 

1.0496 

I.0511 

1.0526 

1-0541 

10555 

1.0570 

1.0585 

1.0600 

31° 

I.0419 

1-0433 

I.O448 

1.0463 

1.0478 

1.0493 

1.0508 

1.0522 

1.0537 

32^ 

1-0355 

1.0370 

IO385 

T.0399 

1.0414 

1.0429 

1.0444 

10459 

1.0473 

33° 

1.0292 

1.0306 

1.0321 

1.0336 

1-0351 

1.0365 

1.0380 

1.0395 

1.0410 

34° 

1.0225 

1.0240 

1.0254 

1.0269 

1 0284 

l.02gg 

1.0313 

10328 

1-0343 

35° 

1.0160 

1.0174 

I.OI89 

1.0204 

1.0218 

1.0233 

1.0248 

1.0262 

1.0277 

























































36 


Nitrogen Table. 


t/) 

V 

744 

745 

746 

747 

748 

749 

750 

75i 

752 

r- 

mm. 

mm. 

mm. 

mm. 

mm. 

mm. 

m m. 

nmi. 

m m . 

t J3 S 

29.29 

29-33 

29-37 

29 41 

2945 

29 49 

29-53 

2957 

29.61 

Q u 

in. 

in. 

in. 

in. 

in. 

in. 

in. 

in. 

in. 

o° 

1.2225 

1.2241 

1.2258 

1.2274 

1.2291 

1.2307 

1.2324 

1.2340 

1-2357 

i° 

12175 

1.2192 

1.2208 

1.2225 

1.2241 

1.2258 

1.2274 

12291 

1.2307 

2° 

1.2125 

1.2141 

1.2158 

1.2174 

1 . 2190 

1.2207 

1.2223 

1.2240 

1.2256 

3° 

1.2074 

1 . 2090 

1.2107 

12123 

1.2140 

1.2156 

1.2172 

1.21S9 

1.2205 

4° 

1.2025 

1.2041 

12057 

1.2074 

1.2090 

1.2106 

12122 

1.2139 

1-2155 

5" 

11974 

1.1990 

1.2007 

12023 

1.2039 

1-2055 

1.2072 

1.2088 

1.2104 

6° 

1.1924 

1.1940 

1.1956 

1-1972 

1.1988 

1.2005 

1.2021 

1.2037 

1.2053 

7° 

1.1873 

1.1889 

11905 

1.1921 

1.1938 

i-1954 

1.1970 

1 . 1986 

1.2002 

8° 

1.1823 

1.1839 

1.1855 

1.1871 

1.1887 

1.1903 

1.1919 

11935 

1.1 51 

9° 

1.1772 

1 . 17SS 

1.1804 

11820 

1.1836 

1.1852 

1.1868 

11884 

1.1900 

IO° 

1.1721 

11737 

11753 

1.1769 

1.1784 

1.1800 

11816 

1.1832 

1.1848 

n° 

1.1670 

1.1686 

1.1702 

11718 

I-I734 

1-1750 

1.1765 

1.1781 

1.1797 

12° 

1.1618 

1.1633 

1.1649 

11665 

1.1681 

1.1697 

1-1713 

1.1728 

1.1744 

13° 

1.1566 

1.1582 

1.1598 

1.1613 

1.1629 

1.1645 

1.1661 

1.1677 

1.1692 

14° 

1-1515 

1-1530 

11546 

1.1562 

1 -1577 

1 -1593 

1.1609 

1.1625 

1.1640 

15° 

1.1462 

1.1478 

11493 

1.1509 

1-1525 

1 1540 

11556 

1-1572 

1-1587 

i6° 

1.1410 

1-1425 

1-1441 

1.1456 

1-1472 

1.1488 

1-1503 

1-1519 

1 -1535 

17° 

r - 1 35 7 

1 - 1 373 

1.1388 

1.1404 

1.1419 

I-I435 

1.1450 

1.1466 

1.14S2 

i8° 

1-1303 

1.1318 

11334 

I-I349 

1.1365 

1.1380 

1.1396 

1.1411 

1-1427 

!9° 

1.1249 

1.1265 

1.1280 

1.1296 

1.1311 

1.1326 

1.1342 

i-1357 

I-I373 

20° 

1.1195 

(.1210 

1-1225 

1.1241 

1.1256 

1.1272 

1.1287 

1.1303 

1.1318 

21° 

1.U39 

I-II55 

1.1170 

1.11S5 

1.1201 

1.1216 

1.1231 

1.1247 

1.1262 

22° 

1.1084 

I.IO99 

1.1114 

1.1130 

1.1145 

1.1160 

1.1176 

1.1191 

1.1206 

23° 

1.1027 

I-1043 

1.105s 

1.1073 

1.1088 

1.1103 

1.1119 

1.1134 

1.1149 

24° 

1.0971 

I.O986 

11001 

1.1016 

1.1032 

1.1047 

1.1062 

1.1077 

1.1092 

25° 

1.0912 

I.O927 

1-0943 

1.0958 

1.0973 

1.09SS 

1.1003 

1.1018 

1.1034 

26° 

1.0S55 

I.O87O 

1.0885 

1.0900 

1.0915 

1.0930 

1.0945 

1.0961 

1.0976 

27° 

1.0796 

1.08ll 

1.0827 

1.0842 

1.0S57 

1.0872 

1.0SS7 

1.0902 

1.0917 

28° 

1-0737 

1.0752 

1.0767 

1.0782 

1.0797 

1.0812 

1.0S27 

1.0842 

1.0857 

29° 

1.0676 

I.069O 

1.0705 

1.0720 

1-0735 

1 0750 

1.0765 

1.0780 

1-0795 

30° 

1.0615 

I.063O 

1.0645 

1.0660 

1.0675 

1.0690 

1.0704 

1.0719 

1-0734 

3i° 

1-0552 

I.O567 

1.0582 

1-0597 

1.0612 

1.0626 

1.0641 

1.0656 

1.0671 

32° 

1.0488 

1.0503 

1.0518 

1-0533 

1-0547 

1.0562 

1-0577 

1.0592 

1.0607 

33° 

1.0424 

I.O439 

1-0454 

1.0469 

1.0483 

1.0498 

1-0513 

1.0528 

1.0542 

34° 

1-0357 

1.0372 

1.0387 

1.0401 

1.0416 

1 0431 

1.0446 

1.0460 

1.0475 

35° 

1.0291 

1.0306 

1.0321 

1-0335 

1.0350 

1.0365 

1-0379 

1.0394 

1.0409 


























































Nitrogen Table. 


37 



753 

754 

755 

756 

757 

75 S 

759 

760 

761 

gj , • 

mm. 

mm. 

m m. 

mm. 

mm. 

m m. 

m m. 

m m. 

m m. 


29-65 

29.69 

29.72 

29.76 

29.80 

29.84 

29.88 

29.92 

29.96 

C u 

in. 

in. 

in. 

in. 

in. 

in. 

in. 

in. 

in. 

o° 

1-2373 

1.2390 

1.2406 

1.2423 

1.2440 

1.2456 

12473 

1.2489 

1.2506 

1° 

1.2324 

1.2340 

1.2356 

1.2373 

1.2389 

1.2406 

12422 

1-2439 

1-2455 

2° 

1.2272 

1.2289 

1.2305 

1.2322 

1.2338 

1-2355 

1-2371 

1.2387 

1.2404 

3 ° 

1.2221 

12238 

1.2254 

1.2270 

1.2287 

1.2303 

1.2320 

1.2336 

1.2352 

4 ° 

1.2171 

1.2188 

1.2204 

1.2220 

12237 

1.2253 

1.2269 

1.22S5 

1.2302 

5 ° 

1.2120 

1.2137 

1.2153 

1.2169 

1.21S5 

I.2202 

1.2218 

1.2234 

1.2250 

6° 

1.2069 

1.2085 

I.2102 

1.2118 

1.2134 

1.2150 

1.2166 

1.2182 

1.2199 

7 ° 

1.2018 

1.2034 

I 2051 

1.2067 

1.2083 

1.2099 

1.2115 

1.2131 

1.2147 

8° 

1.1967 

1.1983 

I-I 999 

1.2015 

1.2031 

1 2047 

1.2064 

1.2080 

1.2096 

9 ° 

1.1916 

1.1932 

I I948 

1.1964 

1.1980 

1.1996 

1.2012 

1.2028 

1.2044 

IO° 

1.1S64 

1.1880 

I.1896 

1.1912 

1.1928 

1.1944 

1.1960 

1.1976 

1.1992 

ii° 

1.1813 

1.1829 

I-I845 

1.1861 

1.1877 

1.1893 

1.1909 

1.1924 

1.1940 

12° 

1.1760 

M776 

1.1792 

1.1808 

1.1823 

1.1S39 

1.1855 

1.1871 

1.1887 

I 3 ° 

1.1708 

1.1724 

1-1740 

1.1755 

1-1771 

1 1787 

1.1803 

1.1S19 

1.1834 

14 ° 

1.1656 

1.1672 

I.1687 

11703 

117x9 

1-1735 

1.1750 

1.1766 

1.1782 

15 ° 

1.1603 

1.1619 

I.1634 

1.1650 

1.1666 

1.1681 

1.1697 

1-1713 

1-1729 

i6° 

I-I 550 

1.1566 

1.1581 

1 •1597 

1.1613 

1.1628 

1.1644 

1.1660 

1.1675 

17 ° 

1.1497 

1-1513 

1.1528 

1.1544 

1 - 1 5 59 

1 1575 

1.159 1 

1.1606 

1.1622 

18° 

1.1442 

1.1458 

I 1473 

1.1489 

11504 

1.1520 

i -1535 

1-1551 

1.1566 

x 9 ° 

1.1388 

1.1404 

I-I4X9 

I-I 435 

1-1450 

1.1466 

1.1481 

1.1496 

1.1512 

20° 

1 - 1 333 

i-1349 

I.I364 

1.1380 

I-I 395 

1.1410 

1.1426 

1.1441 

1-1457 

21° 

1-1277 

1.1293 

1.1308 

1.1323 

I-I 339 

i -1354 

1.1369 

1.1385 

1.1400 

22° 

1.1221 

1.1237 

I.I252 

1.1267 

X.12S3 

1.1298 

I-I 3 X 3 

1.1329 

1 .1344 

23 ° 

1.1164 

1. n8o 

I-IX 95 

1.1210 

1.1225 

1.1241 

1.1256 

1.1271 

1.1286 

24 ° 

1.1108 

11x23 

I.II38 

I-II 53 

1.1168 

1.11S4 

1.1199 

1.1214 

1.1229 

25 ° 

1 1049 

1.1064 

I.IO79 

1.1094 

1.1109 

1.1124 

1.1140 

1.1155 

1.1170 

26° 

1.0991 

1.1006 

1.1021 

1.1036 

1.1051 

1.1066 

1.1081 

1.1096 

1.1112 

27 ° 

1.0932 

1.0947 

I.O962 

1.0977 

1.0992 

1.1007 

1.1022 

1.1037 

j.1052 

28° 

1.0872 

1.0887 

I.O902 

1.0917 

1.0932 

1.0947 

1.0962 

1.0977 

1.0992 

29° 

1.0810 

1.0S25 

I.0840 

1.0855 

1.0870 

1.0885 

1.0900 

1.0915 

1.0930 

30 ° 

1-0749 

1.0764 

I 0779 

1.0794 

1.0809 

1.0824 

1.0839 

1.0853 

1.0868 

31 ° 

1.06S6 

1.0701 

I.O716 

1.073c 

1-0745 

1.076c 

1.0775 

1.079c 

1.0805 

32 0 

1.0621 

1.0636 

I.065I 

1.0666 

1.0681 

1.0695 

1.071c 

1.072= 

1.0740 

33 ° 

1-0557 

1.0572 

I.O587 

t.0601 

1.0616 

1.0631 

1.0646 

1.066c 

1.0675 

34 ° 

1.049c 

1.0505 

I.O5I9 

1-0534 

1.054c 

1-056: 

1.057' 

1.059: 

1.0607 

35 ° 

1.0425 

1.043s 

1-0452 

1.0465 

1.0482 

1.049- 

1.0511 

1.0526 

1.0541 















































































38 


Nitrogen Table. 


(/) 

<L> 

0 1 

to 

763 

764 

765 

766 

767 

768 

769 

770 

OJ G 

11: m. 

mm. 

mm. 

111 111. 

m m. 

111m. 

m m. 

m m. 

mm 

tn.H 

V 

30 00 

30.04 

30.08 

30.12 

30.16 

30.20 

30.24 

30.28 

30.32 


in. 

in. 

111. 

in. 

m. 

111. 

in. 

in. 

in. 

o° 

1.2522 

1-2539 

1.2555 

1.2572 

1.258s 

1.2605 

1.2621 

1.2638 

1.2654 

i° 

1.2472 

1.2488 

1.2505 

1.2521 

1.2538 

1-2554 

1.2571 

1.2587 

1.2604 

2° 

1.2420 

1-2437 

1-2453 

1.2469 

1.2486 

1.2502 

1.2519 

1-2535 

1-2551 

3 

1.2369 

1 2385 

1.2401 

1.2418 

12434 

1.2450 

1.2467 

1.2483 

1.2499 

4 ° 

12318 

1-2334 

1-2351 

I.2367 

1.2383 

1.2399 

1.2416 

1.2432 

1.2448 

5 ° 

1.2267 

1.2283 

1.2299 

1 . 23 I 5 

1.2332 

1.234b 

1.2364 

1.2380 

12397 

6° 

1.2215 

1.2231 

1.2247 

I.2263 

1.2279 

1.2296 

1.2312 

1.232b 

12344 

7 ° 

1.2163 

12179 

1.2196 

1.2212 

12228 

1.2244 

1.2260 

1.2276 

12292 

8° 

I.2112 

1.2128 

I- 2 I 44 

1.2160 

1.2176 

1.2192 

1.2208 

1.2224 

1.2240 

9 ° 

1.2060 

1.2076 

1.2092 

I. 210 S 

1.2124 

1.2140 

1.2156 

1.2172 

1.2188 

IO° 

1.2008 

1.2024 

1.2040 

I.2056 

1.2072 

1.2088 

1.2103 

1.2119 

1.2135 

n° 

I 1956 

1-1972 

1.1988 

1.2004 

1.2020 

I.2036 

1.2052 

1.2067 

1.2083 

12 

I.I903 

1.1918 

i -1934 

1.1950 

1.1966 

i.igS2 

1.1998 

1.2013 

1.2029 

r 3 

I.I85O 

1.1866 

I.1882 

I.I897 

11913 

1.1929 

1.1945 

1.1961 

1.1976 

14 ° 

1 . 179 s 

1.1813 

1.1829 

I.1S45 

1.1S60 

1.1876 

1.1892 

1.1908 

1.1923 

15 ° 

1.1744 

1.1760 

I-I 776 

I 1791 

1.1807 

1.1823 

1.1838 

1.1854 

1.1870 

i6° 

I.1691 

1.1706 

1.1722 

I.I738 

1.1753 

1.1769 

1.1784 

1.1800 

1.1816 

17 ° 

1.1637 

1 1653 

1.1668 

I.16S4 

1.1700 

1.1715 

1.1731 

1.1746 

1.1762 

i8° 

1.1582 

I-I 597 

1.1613 

I.1628 

1.1644 

1.1659 

1.1675 

1.1690 

1.1706 

I 9 ° 

1.1527 

1.1543 

1.1558 

I -1574 

1.1589 

1.1605 

1.1620 

1.1636 

1.1651 

20° 

1-1472 

1.1487 

11503 

1.1518 

11534 

1 1549 

11564 

1.1580 

11595 

2l' 

I 1416 

i.i 43 i 

1.1446 

1.1462 

11477 

1.1492 

1.1508 

1-1523 

1.1538 

2 2 

I 1359 

1-1374 

1.1390 

I.I 405 

1.1420 

1.1436 

1.1451 

1.1466 

1.14S2 

23 

1.1302 

1-1317 

i 1332 

I 1347 

11363 

1-1378 

11393 

1 1408 

1.1424 

24 ° 

1-1244 

1.1260 

1 .1275 

1. 129O 

11305 

1.1320 

1.1336 

I.I 35 I 

11366 

25 

1.1185 

1.1200 

1.1215 

I.1230 

1.1246 

1.1261 

1.1276 

1.1291 

11306 

z 6 

1.1127 

1.1142 

1 .H 57 

1. H72 

1.1187 

1.1202 

1.1217 

1.1232 

11247 

27 ° 

I.1067 

1.1082 

1.1097 

1. 1112 

1.1127 

1.1142 

1.1157 

1.1172 

1.n88 

28° 

1.1007 

1.1022 

1.1037 

I.IO52 

1.1067 

1.1082 

1.1097 

1.1112 

1.1127 

29 

1-0945 

1.0960 

1.0974 

I.O989 

1.1004 

1.1019 

1.1034 

1.1049 

1.1064 

30 ° 

1.0883 

1.0898 

1.0913 

I O928 

1.0943 

1.095S 

1.0973 

1.0988 

1.1002 

3 I 3 

i.0819 

1.0834 

1.0849 

I.0864 

10879 

1.0893 

1.0909 

1.0923 

1.0938 

32 J 

1-0755 

r.0769 

1.0784 

I O799 

1.0S14 

1.0829 

1.0843 

1.0858 

1.0873 

33’ 

1.0690 

1.0705 

1 0719 

1-0734 

1.0749 

1.0764 

1.0778 

1.0793 

1.0808 

34 ° 

1.0622 

1.0637 

1.0652 

1.0666 

1.0681 

1 0696 

1.0710 

1.0725 

1.0740 

35 

1-0555 

1-0570 

1 05S5 

1.0599 

1.0614 

1.0629 

1.0643 

1.0658 

1.0673 

















































Atomic Weights. 


39 


TABLE V. 

ATOMIC WEIGHTS. 


According to Clarke, “Constants of Nature, Part V, 1882. 
(Quantivalences after Bloxam.) 


Aluminum, 

Al. 

III. 

27 009 

M ercury. 

Hg. 

1 . II. 

199.712 

Antimony, 

Sb. 

III. V. 

119 955 

Molybdenum, 

Mo. 

VI. 

95-527 

Arsenic, 

As. 

III. V. 

74 9 l8 

N tckel, 

Ni. 

II. III. 

57928 

Barium, 

Ba. 

11. 

136.763 

Nitrogen, 

N. 

III. V. 

14.021 

Bismuth, 

Bi. 

III. V. 

207.523 

Osmium, 

Os. 

VI. 

198.494 

Boron, 

B. 

III. 

10.941 

Oxygen, 

O. 

II 

15 9633 

Bromine, 

Br. 

I. 

79.768 

Palladium, 

Pd. 

II. V. 

105.737 

Cadmium, 

Cd. 

II. 

nr.835 

Phosphorus, 

P. 

III. V. 

30.958 

Caesium, 

Cs. 

I. 

132.583 

Platinum, 

Pt. 

II. IV. 

194-415 

Calcium, 

Ca. 

II. 

39.990 

Potassium, 

K. 

I. 

39.019 

Carbon, 

C. 

IV. 

11.9736 

Rhodium, 

Ko. 

III. 

104.055 

Cerium, 

Ce. 

II. 

140.424 

Rubidium, 

Rb. 

I. 

85-251 

Chlorine, 

Cl. 

I. 

35-370 

Ruthenium, 

Ru. 

IV. 

104.217 

Chromium, 

Cr. 

III. VI. 

52.009 

Scandium, 

Sc. 


43.980 

Cobalt, 

Co. 

II. III. 

5S.8S7 

Selenium, 

Se. 

II. 

78.797 

Columbium, 

Cb. 


93.812 

Silicon, 

Si. 

IV. 

28.195 

Copper, 

Cu. 

I. II. 

63 173 

Silver, 

Ag 

I. 

107.675 

Didymium, 

D. 

II. 

144-573 

Sodium, 

Na. 

I. 

22.998 

Erbium, 

E. 

II. 

165.891 

Strontium, 

Sr. 

II. 

87-374 

h luorine, 

F. 

I. 

18 984 

Sulphur. 

S. 

II. 

31-984 

Gallium, 

Ga. 

III. 

68 S54 

1 'ant alum. 

Ta. 

V. 

182.144 

Glticinum, 

Gl. 

II 

9.085 

Tellurium, 

Te. 

11. 

127.960 

Gold, 

Au. 

III. 

196155 

I'll allium, 

Tl. 

I. 

203.715 

Hydrogen, 

H. 

I. 

1.000 

Thorium, 

Th. 

II. 

233414 

Indium, 

In. 

111. 

ii 3 . 39 s 

Tin. 

Sn. 

II. IV. 

117.698 

Iodine, 

1. 

1 

126 557 

Titanium, 

Ti. 

IV. 

49.846 

I ridium, 

Ir. 

IV. 

192.651 

Tungsten 

W. 

VI. 

183.610 

Iron, 

Fe. 

11. hi. 

55 - 9 I 3 

U ranium. 

U. 

II. III. 

238 482 

Lanthanum. 

La. 

11. 

138.526 

Vanadium, 

V. 

III. V. 

51.256 

Lead, 

Pb. 

11. 

206 471 

Ytterbium, 

Yb. 


172.761 

Lithium, 

Li. 

1. 

7.0073 

Yttrium, 

Yt. 

II. 

89.816 

Magnesium, 

Mg 

11 

23-959 

Zinc, 

Zn. 

II. 

64.9045 

Manganese. 

Mn. 

II. IV. 

53 906 

(Zirconium, 

Zr. 

IV. 

89.367 
















40 


Conversion Factors. 


c r. 

>< 

< 

A 

< 


< 

Gh 

D 

H 

D 

u 

& 

o 

*$ 

A 


> 

W 

J 

PQ 

< 

H 


u 

Q 

w 

> 

o 

§ 

S 

o 

u 

w 

0$ 

o 




V2 

34 

o 

H 

U 

<3 

fa* 


A 

O 

V 3 

eS 

W 

> 

A 

O 

u 























Conversion Factors. 


41 



co O' O h m n *t mo r^*oo O' O ^ 
d d nnnncmcnncncn-t"t 

O' 

w co 0 co co d co ►”-< 0 nee c^ 0 O' 

HOD OOOO UTO O W H O H CO 0 

OO O VOO O CO H H d O vn CO U-> O'' 

O >n n n in 0 ’T cn O'N w on ic 

•t N in rs 0 h co O'O in O 0 in 0 
m ci rj-vd d’ ci co ’ d h h 6 

•H W M d M hH 

00 

O ci (X) hh oor^i^O — O O' -t 

O m n h 0 -to 0 0 r> 

m 0 n O cn *t too w co O -t 

n t M N O O' ►-< 0 m 10O 

O' ^ m d O co -to inr^M -t -t 

co^Htiodo^ d'Mt-ni^. 

M M M d M 

1 ^. 

t-i n m in n h >- ci O d mo O O 

ci m m cn m t f N O' co -t O O -t 

mr^O mco O' m Nco cn n O' m 0 
co w co d O m cn *t 0*0 ci O' 

t ITnNh i- N 0 in -t -t 0 CM CM 

cortcf'cocod'r^co co 1— w in 

M •— •— 

vd 

in CM CO CO VO lO iO CO O CO CO CM O' VO 

NO'cnm-t^NO -tO Ni-mO 
co co -t -t d •- •- 0 tn m 0 0 

cd co co O co cm cm 0 co co iO m 0 

O' co CO HH CO C CM vO -t CO C l CO 0 M 

cm’ coco co •-* co vo ci r>. « co 

IT) 

O' — CM CO O' O CO O CO CM O' O CM 

cm cm •—co co ci co cm m r^co *- mh 

CM co vO co O m O't -tO O' *-< m •— 

co O' co m cm coco co co — 0 cm r^ci 

-t m O'O -t r^vO H co co O r- co O' 
ci COO* CM* O'O CM CM* * O* d 

^t 

co —1 O'O O co-tco O co 0 100 r"* 
co 0 co O CO CM co coo coco O' co 
vn co co coo co h n to mo O 

co mco cm coco vn-fO m m n 0 co 
O'mint— m co h co cm co m n 

wpirndiNmOH -t co 

co 

r^-o O co nco -to -to — 0 co 

co OO cm cm h co m n 0 co n co 0 

Oco wCMCM — coOOO*— CM vn CO 
co *— 0 O vn -t •-< — co O -t co cm \n 

Tt O h vn 0 OO co CM h 0 -tvnvn 

HH-tHmtFW co vd 

d’ 

CM •— *t CO in CM CM 00 O' CO rv O O 

O' co 'tm w — (OO co O O' -t cm 0 

cm G"t w co t m co coo r^co Oco 
cor^cooo O' n in M ci co mo 

O'ci O r^o Oco M t- —t cm coco 

* h' ci h co cm vn * ci ’ *t 


O vnciocooo m O m 0 -tO -t 
-to N NO O O'CO O' co O' CM •— CO 

O O' O -t n r^vo O co co -t *n -t 
O' co O' coco -t co co r^o — -t co 
-tO co vn co comtOOClMHH 

W w w d M CM 

Sought. 

. 0" . .0" 

fio^ 0 ^ 0 ^ .3 .tC* 

d(^ 0 £ CM^h£-^ CM d £ CM CmO 

Found. 

. . . uu 

^ V- f C 1 

000 4 °^ 

Oi oTph 0 0 . S: 33 « 

35 .^ a, o. a. 

| 

coC'OHdcotmONcoO'O '- 1 

CM CM COCOCOCOCOCOCOCOCOCO't't 


v 

s 

cl 


C 

O 


V 

o 


c 

<D 


c 

<u 

« 3 J 


5 



























42 


Metric System of Weights and Measures. 


TABLE VII. 

METRIC SYSTEM OF WEIGHTS AND MEASURES, 
i Metre = 39_37079 inches. i Gramme= 15.43235 grains. 


Avoirdupois Weight. 


Grammes. 


Dr. 

[16]* 

1.7718 

Oz. 

[16] 

23-3495 

Lb. 

LdJ 

453-5926 

St. 

[ 2] 

6350.2964 

Qr. 

[ 4] 

12701. 

Cwt. 

[20] 

50S02. 

Gross ton 

1016047. 

Net ton 


907185- 


Troy Weight. 

Grammes. 

Grain 

[ 2 4] 

.0648 

Dwt. 

[20] 

1-5552 

Oz. 

[12] 

31-1035 

Lb. 


373-24I9 


Apothecaries Weight. 

Grammes. 
.0648 
1.2960 
3.8879 
31.1035 
373-24I9 

Measures of Capacity. 
Grains of water 




at 62°F. 

C.c. 

Minim 

’60] 

0-95 

0.061 

FI. dr. 

8] 

56.95 

3.690 

FI. oz. 

16] 

455-61 

29.570 

Pt. 

2] 

7289.75 

473-150 

Qt. 

4] 

14579-50 

946.300 

Gal. 


58318.00 

3785.200 


Grain 

Scruple 

Dr. 

Oz. 

Lb. 


Measures of Distance. 


Miscellaneous. 


In. 

Ft. 

Yd. 

Furlong 

Mile 


Metres. 
[i2( .02539954 

[ 3] .30479449 

[220] .91438347 

[ 8] 201.1644 

1609.3149 


Lbs. Av. Grms. 
1 cu. ft. water at 62°F=62.3550=28215.0000 
1 cu. in. “ “ .0361= 16.3862 

1 Imperial gal. =277.274cu. in. =4543.0 c.c. 
1 U. S. gallon = 23i.ooo “ =3785.2 c.c. 

1 oz. Av. =437.50 grains = 28.3495 grammes. 
1 oz. Troy, 1 oz. Apoth.=480grains=3i.1035 
grammes. 


*The figures in brackets denote the number requisite to compose the denomi¬ 
nation immediately below. 



































































I 

















































